From 1b820de08a05070909a267e17f033fcf58ac8710 Mon Sep 17 00:00:00 2001 From: NotAPenguin Date: Mon, 2 Sep 2024 23:17:17 +0200 Subject: The Great Renaming (#3014) * move kekztech to a single root dir * move detrav to a single root dir * move gtnh-lanthanides to a single root dir * move tectech and delete some gross reflection in gt++ * remove more reflection inside gt5u * delete more reflection in gt++ * fix imports * move bartworks and bwcrossmod * fix proxies * move galactigreg and ggfab * move gtneioreplugin * try to fix gt++ bee loader * apply the rename rules to BW * apply rename rules to bwcrossmod * apply rename rules to detrav scanner mod * apply rename rules to galacticgreg * apply rename rules to ggfab * apply rename rules to goodgenerator * apply rename rules to gtnh-lanthanides * apply rename rules to gt++ * apply rename rules to kekztech * apply rename rules to kubatech * apply rename rules to tectech * apply rename rules to gt apply the rename rules to gt * fix tt import * fix mui hopefully * fix coremod except intergalactic * rename assline recipe class * fix a class name i stumbled on * rename StructureUtility to GTStructureUtility to prevent conflict with structurelib * temporary rename of GTTooltipDataCache to old name * fix gt client/server proxy names --- src/main/java/gtPlusPlus/core/material/ALLOY.java | 888 --------------------- .../java/gtPlusPlus/core/material/ELEMENT.java | 651 --------------- .../gtPlusPlus/core/material/MISC_MATERIALS.java | 592 -------------- .../java/gtPlusPlus/core/material/Material.java | 38 +- .../core/material/MaterialGenerator.java | 124 +-- .../gtPlusPlus/core/material/MaterialMisc.java | 595 ++++++++++++++ .../gtPlusPlus/core/material/MaterialStack.java | 4 +- .../gtPlusPlus/core/material/MaterialsAlloy.java | 888 +++++++++++++++++++++ .../core/material/MaterialsElements.java | 651 +++++++++++++++ .../gtPlusPlus/core/material/MaterialsOres.java | 778 ++++++++++++++++++ .../gtPlusPlus/core/material/MaterialsOther.java | 42 + .../java/gtPlusPlus/core/material/NONMATERIAL.java | 42 - src/main/java/gtPlusPlus/core/material/ORES.java | 701 ---------------- .../core/material/nuclear/FLUORIDES.java | 244 ------ .../core/material/nuclear/MaterialsFluorides.java | 245 ++++++ .../core/material/nuclear/MaterialsNuclides.java | 317 ++++++++ .../gtPlusPlus/core/material/nuclear/NUCLIDE.java | 311 -------- 17 files changed, 3599 insertions(+), 3512 deletions(-) delete mode 100644 src/main/java/gtPlusPlus/core/material/ALLOY.java delete mode 100644 src/main/java/gtPlusPlus/core/material/ELEMENT.java delete mode 100644 src/main/java/gtPlusPlus/core/material/MISC_MATERIALS.java create mode 100644 src/main/java/gtPlusPlus/core/material/MaterialMisc.java create mode 100644 src/main/java/gtPlusPlus/core/material/MaterialsAlloy.java create mode 100644 src/main/java/gtPlusPlus/core/material/MaterialsElements.java create mode 100644 src/main/java/gtPlusPlus/core/material/MaterialsOres.java create mode 100644 src/main/java/gtPlusPlus/core/material/MaterialsOther.java delete mode 100644 src/main/java/gtPlusPlus/core/material/NONMATERIAL.java delete mode 100644 src/main/java/gtPlusPlus/core/material/ORES.java delete mode 100644 src/main/java/gtPlusPlus/core/material/nuclear/FLUORIDES.java create mode 100644 src/main/java/gtPlusPlus/core/material/nuclear/MaterialsFluorides.java create mode 100644 src/main/java/gtPlusPlus/core/material/nuclear/MaterialsNuclides.java delete mode 100644 src/main/java/gtPlusPlus/core/material/nuclear/NUCLIDE.java (limited to 'src/main/java/gtPlusPlus/core/material') diff --git a/src/main/java/gtPlusPlus/core/material/ALLOY.java b/src/main/java/gtPlusPlus/core/material/ALLOY.java deleted file mode 100644 index 8df8d54f12..0000000000 --- a/src/main/java/gtPlusPlus/core/material/ALLOY.java +++ /dev/null @@ -1,888 +0,0 @@ -package gtPlusPlus.core.material; - -import gregtech.api.enums.Materials; -import gtPlusPlus.core.material.state.MaterialState; -import gtPlusPlus.core.util.minecraft.MaterialUtils; - -public final class ALLOY { - - // Just some GT Alloys that I need within mine. - public static final Material BRONZE = MaterialUtils.generateMaterialFromGtENUM(Materials.Bronze); - public static final Material STEEL = MaterialUtils.generateMaterialFromGtENUM(Materials.Steel); - public static final Material STEEL_BLACK = MaterialUtils.generateMaterialFromGtENUM(Materials.BlackSteel); - public static final Material INVAR = MaterialUtils.generateMaterialFromGtENUM(Materials.Invar); - public static final Material KANTHAL = MaterialUtils.generateMaterialFromGtENUM(Materials.Kanthal); - public static final Material NICHROME = MaterialUtils.generateMaterialFromGtENUM(Materials.Nichrome); - public static final Material TUNGSTENSTEEL = MaterialUtils.generateMaterialFromGtENUM(Materials.TungstenSteel); - public static final Material STAINLESS_STEEL = MaterialUtils.generateMaterialFromGtENUM(Materials.StainlessSteel); - public static final Material OSMIRIDIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Osmiridium); - public static final Material POLYETHYLENE = MaterialUtils.generateMaterialFromGtENUM(Materials.Plastic); - public static final Material POLYTETRAFLUOROETHYLENE = MaterialUtils - .generateMaterialFromGtENUM(Materials.Polytetrafluoroethylene); - public static final Material ENERGYCRYSTAL = new Material( - "Energy Crystal", // Material Name - MaterialState.SOLID, // State - new short[] { 228, 255, 0, 0 }, // Material Colour - 4660, // Melting Point in C - 5735, // Boiling Point in C - 90, // Protons - 40, // Neutrons - true, // Uses Blast furnace? - "⬟ ⯂ ⬢ ⬣ ⯃ ⯄", - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().AER, 5), - new MaterialStack(ELEMENT.getInstance().IGNIS, 5), - new MaterialStack(ELEMENT.getInstance().TERRA, 5), - new MaterialStack(ELEMENT.getInstance().AQUA, 5)); - - public static final Material BLOODSTEEL = new Material( - "Blood Steel", // Material Name - MaterialState.SOLID, // State - new short[] { 142, 28, 0, 0 }, // Material Colour - 2500, // Melting Point in C - 0, // Boiling Point in C - 100, // Protons - 100, // Neutrons - false, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ALLOY.STEEL, 5), - new MaterialStack(ELEMENT.getInstance().IGNIS, 5)); - - public static final Material STABALLOY = new Material( - "Staballoy", // Material Name - MaterialState.SOLID, // State - new short[] { 68, 75, 66, 0 }, // Material Colour - 3450, // Melting Point in C - -1, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().URANIUM238, 9), - new MaterialStack(ELEMENT.getInstance().TITANIUM, 1)); - - public static final Material TANTALLOY_60 = new Material( - "Tantalloy-60", // Material Name - MaterialState.SOLID, // State - new short[] { 213, 231, 237, 0 }, // Material Colour - 3025, // Melting Point in C - -1, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().TUNGSTEN, 4), - new MaterialStack(ELEMENT.getInstance().TANTALUM, 46)); - - public static final Material TANTALLOY_61 = new Material( - "Tantalloy-61", // Material Name - MaterialState.SOLID, // State - new short[] { 193, 211, 217, 0 }, // Material Colour - 3030, // Melting Point in C - -1, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ALLOY.TANTALLOY_60, 2), - new MaterialStack(ELEMENT.getInstance().TITANIUM, 12), - new MaterialStack(ELEMENT.getInstance().YTTRIUM, 8)); - - public static final Material TUMBAGA = new Material( - "Tumbaga", // Material Name - MaterialState.SOLID, // State - new short[] { 255, 178, 15, 0 }, // Material Colour - 1300, - -1, - -1, - -1, - false, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().GOLD, 70), - new MaterialStack(ELEMENT.getInstance().COPPER, 30)); - - public static final Material POTIN = new Material( - "Potin", // Material Name - MaterialState.SOLID, // State - new short[] { 201, 151, 129, 0 }, // Material Colour - 1300, - -1, - -1, - -1, - false, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().LEAD, 40), - new MaterialStack(ALLOY.BRONZE, 40), - new MaterialStack(ELEMENT.getInstance().TIN, 20)); - - /* - * public static final Material BEDROCKIUM = new Material( "Bedrockium", //Material Name new short[]{32, 32, 32, 0}, - * //Material Colour 7735, //Melting Point in C 0, //Boiling Point in C 100, //Protons 100, //Neutrons false, //Uses - * Blast furnace? //Material Stacks with Percentage of required elements. null); - */ - - public static final Material INCONEL_625 = new Material( - "Inconel-625", // Material Name - MaterialState.SOLID, // State - new short[] { 128, 200, 128, 0 }, // Material Colour - 2425, // Melting Point in C - 3758, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().NICKEL, 3), - new MaterialStack(ELEMENT.getInstance().CHROMIUM, 7), - new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 10), - new MaterialStack(INVAR, 10), - new MaterialStack(NICHROME, 13)); - - public static final Material INCONEL_690 = new Material( - "Inconel-690", // Material Name - MaterialState.SOLID, // State - new short[] { 118, 220, 138, 0 }, // Material Colour - 3425, // Melting Point in C - 4895, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().CHROMIUM, 5), - new MaterialStack(ELEMENT.getInstance().NIOBIUM, 10), - new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 10), - new MaterialStack(NICHROME, 15)); - - public static final Material INCONEL_792 = new Material( - "Inconel-792", // Material Name - MaterialState.SOLID, // State - new short[] { 108, 240, 118, 0 }, // Material Colour - 3425, // Melting Point in C - 6200, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().NICKEL, 20), - new MaterialStack(ELEMENT.getInstance().NIOBIUM, 10), - new MaterialStack(ELEMENT.getInstance().ALUMINIUM, 20), - new MaterialStack(NICHROME, 10)); - - public static final Material NITINOL_60 = new Material( - "Nitinol 60", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 5651, // Melting Point in C - 8975, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().NICKEL, 40), - new MaterialStack(ELEMENT.getInstance().TITANIUM, 60)); - - public static final Material ZERON_100 = new Material( - "Zeron-100", // Material Name - MaterialState.SOLID, // State - new short[] { 180, 180, 20, 0 }, // Material Colour - 6100, - 9785, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().CHROMIUM, 26), - new MaterialStack(ELEMENT.getInstance().NICKEL, 6), - new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 4), - new MaterialStack(ELEMENT.getInstance().COPPER, 20), - new MaterialStack(ELEMENT.getInstance().TUNGSTEN, 4), - new MaterialStack(ALLOY.STEEL, 40)); - - public static final Material MARAGING250 = new Material( - "Maraging Steel 250", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 2413, // Melting Point in C - 4555, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ALLOY.STEEL, 64), - new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 4), - new MaterialStack(ELEMENT.getInstance().TITANIUM, 4), - new MaterialStack(ELEMENT.getInstance().NICKEL, 16), - new MaterialStack(ELEMENT.getInstance().COBALT, 8)); - - public static final Material MARAGING300 = new Material( - "Maraging Steel 300", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 2413, // Melting Point in C - 4555, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ALLOY.STEEL, 64), - new MaterialStack(ELEMENT.getInstance().TITANIUM, 4), - new MaterialStack(ELEMENT.getInstance().ALUMINIUM, 4), - new MaterialStack(ELEMENT.getInstance().NICKEL, 16), - new MaterialStack(ELEMENT.getInstance().COBALT, 8)); - - public static final Material MARAGING350 = new Material( - "Maraging Steel 350", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 2413, // Melting Point in C - 4555, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ALLOY.STEEL, 64), - new MaterialStack(ELEMENT.getInstance().ALUMINIUM, 4), - new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 4), - new MaterialStack(ELEMENT.getInstance().NICKEL, 16), - new MaterialStack(ELEMENT.getInstance().COBALT, 8)); - - public static final Material AQUATIC_STEEL = new Material( - "Watertight Steel", // Material Name - MaterialState.SOLID, // State - new short[] { 120, 120, 180 }, // Material Colour - 2673, // Melting Point in C - 4835, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ALLOY.STEEL, 60), - new MaterialStack(ELEMENT.getInstance().CARBON, 10), - new MaterialStack(ELEMENT.getInstance().MANGANESE, 5), - new MaterialStack(ELEMENT.getInstance().SILICON, 10), - new MaterialStack(ELEMENT.getInstance().PHOSPHORUS, 5), - new MaterialStack(ELEMENT.getInstance().SULFUR, 5), - new MaterialStack(ELEMENT.getInstance().ALUMINIUM, 5)); - - public static final Material STELLITE = new Material( - "Stellite", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 4310, // Melting Point in C - 6250, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().COBALT, 35), - new MaterialStack(ELEMENT.getInstance().CHROMIUM, 35), - new MaterialStack(ELEMENT.getInstance().MANGANESE, 20), - new MaterialStack(ELEMENT.getInstance().TITANIUM, 10)); - - public static final Material TALONITE = new Material( - "Talonite", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 3454, // Melting Point in C - 5500, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().COBALT, 40), - new MaterialStack(ELEMENT.getInstance().CHROMIUM, 30), - new MaterialStack(ELEMENT.getInstance().PHOSPHORUS, 20), - new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 10)); - - public static final Material HASTELLOY_W = new Material( - "Hastelloy-W", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 3350, // Melting Point in C - 5755, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().IRON, 06), - new MaterialStack(ELEMENT.getInstance().COBALT, 2), - new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 24), - new MaterialStack(ELEMENT.getInstance().CHROMIUM, 6), - new MaterialStack(ELEMENT.getInstance().NICKEL, 62)); - - public static final Material HASTELLOY_X = new Material( - "Hastelloy-X", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 3350, // Melting Point in C - 5755, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().IRON, 18), - new MaterialStack(ELEMENT.getInstance().MANGANESE, 2), - new MaterialStack(ELEMENT.getInstance().SILICON, 2), - new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 8), - new MaterialStack(ELEMENT.getInstance().CHROMIUM, 22), - new MaterialStack(ELEMENT.getInstance().NICKEL, 48)); - - public static final Material HASTELLOY_N = new Material( - "Hastelloy-N", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 4350, // Melting Point in C - 6875, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().YTTRIUM, 8), - new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 16), - new MaterialStack(ELEMENT.getInstance().CHROMIUM, 8), - new MaterialStack(ELEMENT.getInstance().TITANIUM, 8), - new MaterialStack(ELEMENT.getInstance().NICKEL, 60)); - - public static final Material HASTELLOY_C276 = new Material( - "Hastelloy-C276", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 4350, // Melting Point in C - 6520, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().COBALT, 2), - new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 16), - new MaterialStack(ELEMENT.getInstance().TUNGSTEN, 2), - new MaterialStack(ELEMENT.getInstance().COPPER, 2), - new MaterialStack(ELEMENT.getInstance().CHROMIUM, 14), - new MaterialStack(ELEMENT.getInstance().NICKEL, 64)); - - public static final Material INCOLOY_020 = new Material( - "Incoloy-020", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 3425, // Melting Point in C - 5420, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().IRON, 40), - new MaterialStack(ELEMENT.getInstance().COPPER, 4), - new MaterialStack(ELEMENT.getInstance().CHROMIUM, 20), - new MaterialStack(ELEMENT.getInstance().NICKEL, 36)); - - public static final Material INCOLOY_DS = new Material( - "Incoloy-DS", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 3425, // Melting Point in C - 5420, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().IRON, 46), - new MaterialStack(ELEMENT.getInstance().COBALT, 18), - new MaterialStack(ELEMENT.getInstance().CHROMIUM, 18), - new MaterialStack(ELEMENT.getInstance().NICKEL, 18)); - - public static final Material INCOLOY_MA956 = new Material( - "Incoloy-MA956", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 4425, // Melting Point in C - 6875, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().IRON, 64), - new MaterialStack(ELEMENT.getInstance().ALUMINIUM, 12), - new MaterialStack(ELEMENT.getInstance().CHROMIUM, 20), - new MaterialStack(ELEMENT.getInstance().YTTRIUM, 4)); - - public static final Material TUNGSTEN_CARBIDE = new Material( - "Tungsten Carbide", // Material Name - MaterialState.SOLID, // State - new short[] { 44, 44, 44, 0 }, // Material Colour - 3422, // Melting Point in C - -1, - -1, - -1, - true, // Uses Blast furnace? - false, // Generate cells - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().CARBON, 50), - new MaterialStack(ELEMENT.getInstance().TUNGSTEN, 50)); - - public static final Material TUNGSTEN_TITANIUM_CARBIDE = new Material( - "Tungsten Titanium Carbide", // Material Name - MaterialState.SOLID, // State - null, - 4422, // Melting Point in C - -1, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(TUNGSTEN_CARBIDE, 70), - new MaterialStack(ELEMENT.getInstance().TITANIUM, 30)); - - public static final Material SILICON_CARBIDE = new Material( - "Silicon Carbide", // Material Name - MaterialState.SOLID, // State - new short[] { 40, 48, 36, 0 }, // Material Colour - 1414, // Melting Point in C - -1, - -1, - -1, - false, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().SILICON, 50), - new MaterialStack(ELEMENT.getInstance().CARBON, 50)); - - public static final Material TANTALUM_CARBIDE = new Material( - "Tantalum Carbide", // Material Name - MaterialState.SOLID, // State - new short[] { 139, 136, 120, 0 }, // Material Colour - 2980, // Melting Point in C - -1, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().TANTALUM, 50), - new MaterialStack(ELEMENT.getInstance().CARBON, 50)); - - public static final Material ZIRCONIUM_CARBIDE = new Material( - "Zirconium Carbide", // Material Name - MaterialState.SOLID, // State - new short[] { 222, 202, 180, 0 }, // Material Colour - 1555, // Melting Point in C - -1, - -1, - -1, - false, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().ZIRCONIUM, 50), - new MaterialStack(ELEMENT.getInstance().CARBON, 50)); - - public static final Material NIOBIUM_CARBIDE = new Material( - "Niobium Carbide", // Material Name - MaterialState.SOLID, // State - new short[] { 205, 197, 191, 0 }, // Material Colour - 2477, // Melting Point in C - -1, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().NIOBIUM, 50), - new MaterialStack(ELEMENT.getInstance().CARBON, 50)); - - public static final Material ARCANITE = new Material( - "Arcanite", // Material Name - MaterialState.SOLID, // State - null, - 5666, // Melting Point in C - 9875, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().THORIUM232, 40), - new MaterialStack(ENERGYCRYSTAL, 40), - new MaterialStack(ELEMENT.getInstance().ORDO, 10), - new MaterialStack(ELEMENT.getInstance().PERDITIO, 10)); - - public static final Material LEAGRISIUM = new Material( - "Grisium", // Material Name - MaterialState.SOLID, // State - new short[] { 53, 93, 106, 0 }, // Material Colour - 3850, // Melting Point in C - 5550, // Boiling Point in C - 96, // Protons - 128, // Neutrons - true, // Uses Blast furnace? - new MaterialStack(ELEMENT.getInstance().TITANIUM, 18), - new MaterialStack(ELEMENT.getInstance().CARBON, 18), - new MaterialStack(ELEMENT.getInstance().POTASSIUM, 18), - new MaterialStack(ELEMENT.getInstance().LITHIUM, 18), - new MaterialStack(ELEMENT.getInstance().SULFUR, 18), - new MaterialStack(ELEMENT.getInstance().HYDROGEN, 10)); // Material Stacks with Percentage of - // required elements. - - public static final Material EGLIN_STEEL_BASE = new Material( - "Eglin Steel Base Compound", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - -1, // Melting Point in C - -1, // Boiling Point in C - -1, - -1, - false, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().IRON, 12), - new MaterialStack(KANTHAL, 3), - new MaterialStack(INVAR, 15)); - - public static final Material EGLIN_STEEL = new Material( - "Eglin Steel", // Material Name - MaterialState.SOLID, // State - new short[] { 139, 69, 19, 0 }, // Material Colour - 1048, // Melting Point in C - 1973, // Boiling Point in C - -1, - -1, - false, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ALLOY.EGLIN_STEEL_BASE, 10), - new MaterialStack(ELEMENT.getInstance().SULFUR, 1), - new MaterialStack(ELEMENT.getInstance().SILICON, 4), - new MaterialStack(ELEMENT.getInstance().CARBON, 1)); - - public static final Material HG1223 = new Material( - "HG-1223", // Material Name - MaterialState.LIQUID, // State - new short[] { 39, 85, 159, 0 }, // Material Colour - 6357, // Melting Point in C - 8563, // Boiling Point in C - -1, - -1, - false, // Uses Blast furnace? - new MaterialStack(ELEMENT.getInstance().MERCURY, 1), - new MaterialStack(ELEMENT.getInstance().BARIUM, 2), - new MaterialStack(ELEMENT.getInstance().CALCIUM, 2), - new MaterialStack(ELEMENT.getInstance().COPPER, 3), - new MaterialStack(ELEMENT.getInstance().OXYGEN, 8)); - - public static final Material HS188A = new Material( - "HS188-A", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 4870, // Melting Point in C - 7550, // Boiling Point in C - -1, // Protons - -1, // Neutrons - true, // Uses Blast furnace? - new MaterialStack(ELEMENT.getInstance().COBALT, 20), - new MaterialStack(ELEMENT.getInstance().HAFNIUM, 20), - new MaterialStack(TALONITE, 16), - new MaterialStack(ELEMENT.getInstance().RHENIUM, 10), - new MaterialStack(NIOBIUM_CARBIDE, 10), - new MaterialStack(HASTELLOY_X, 8), - new MaterialStack(TUNGSTENSTEEL, 8), - new MaterialStack(ZIRCONIUM_CARBIDE, 8)); // Material Stacks with Percentage of required - // elements. - - /** - * Stargate Materials - #D2FFA9 210, 255, 170 - */ - public static final Material TRINIUM_TITANIUM = new Material( - "Trinium Titanium Alloy", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 3750, // Melting Point in C - 7210, // Boiling Point in C - -1, - -1, - true, // Uses Blast furnace? - new MaterialStack(ELEMENT.getInstance().TRINIUM_REFINED, 3), - new MaterialStack(ELEMENT.getInstance().TITANIUM, 7)); - - public static final Material TRINIUM_NAQUADAH = new Material( - "Trinium Naquadah Alloy", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 4200, // Melting Point in C - 7400, // Boiling Point in C - -1, - -1, - false, // Uses Blast furnace? - new MaterialStack(ELEMENT.getInstance().TRINIUM_REFINED, 5), - new MaterialStack(ELEMENT.getInstance().NAQUADAH, 9)); - public static final Material TRINIUM_NAQUADAH_CARBON = new Material( - "Trinium Naquadah Carbonite", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 6500, // Melting Point in C - 9000, // Boiling Point in C - -1, - -1, - true, // Uses Blast furnace? - new MaterialStack(TRINIUM_NAQUADAH, 9), - new MaterialStack(ELEMENT.getInstance().CARBON, 1)); - - public static final Material TRINIUM_REINFORCED_STEEL = new Material( - "Arceus Alloy 2B", // Material Name - MaterialState.SOLID, // State - new short[] { 205, 197, 23, 0 }, // Material Colour - 7555, // Melting Point in C - 12350, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().TRINIUM_REFINED, 30), - new MaterialStack(ALLOY.MARAGING350, 40), - new MaterialStack(ALLOY.TUNGSTENSTEEL, 20), - new MaterialStack(ALLOY.OSMIRIDIUM, 10), - new MaterialStack(ELEMENT.getInstance().STRONTIUM, 10)); - - /* - * Witchery Material - */ - - public static final Material KOBOLDITE = new Material( - "Koboldite", // Material Name - MaterialState.SOLID, // State - new short[] { 80, 210, 255, 0 }, // Material Colour - -1, // Melting Point in C - -1, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().NICKEL, 35), - new MaterialStack(ELEMENT.getInstance().THAUMIUM, 30), - new MaterialStack(ELEMENT.getInstance().IRON, 35)); - - /* - * Top Tier Alloys - */ - - public static final Material HELICOPTER = new Material( - "HeLiCoPtEr", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 5763, - 8192, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().HELIUM, 20), - new MaterialStack(ELEMENT.getInstance().LITHIUM, 20), - new MaterialStack(ELEMENT.getInstance().COBALT, 20), - new MaterialStack(ELEMENT.getInstance().PLATINUM, 20), - new MaterialStack(ELEMENT.getInstance().ERBIUM, 20)); - - // 0lafe Compound - public static final Material LAFIUM = new Material( - "Lafium Compound", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 6350, // Melting Point in C - 9865, // Boiling Point in C - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ALLOY.HASTELLOY_N, 8), - new MaterialStack(ELEMENT.getInstance().NAQUADAH, 4), - new MaterialStack(ELEMENT.getInstance().SAMARIUM, 2), - new MaterialStack(ELEMENT.getInstance().TUNGSTEN, 4), - new MaterialStack(ELEMENT.getInstance().ARGON, 2), - new MaterialStack(ELEMENT.getInstance().ALUMINIUM, 6), - new MaterialStack(ELEMENT.getInstance().NICKEL, 8), - new MaterialStack(ELEMENT.getInstance().CARBON, 2)); - - // Cinobi Alloy - public static final Material CINOBITE = new Material( - "Cinobite A243", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 7350, // Melting Point in C - 12565, // Boiling Point in C - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ALLOY.ZERON_100, 16), - new MaterialStack(ELEMENT.getInstance().NAQUADRIA, 7), - new MaterialStack(ELEMENT.getInstance().GADOLINIUM, 5), - new MaterialStack(ELEMENT.getInstance().ALUMINIUM, 3), - new MaterialStack(ELEMENT.getInstance().MERCURY, 2), - new MaterialStack(ELEMENT.getInstance().TIN, 2), - new MaterialStack(ELEMENT.getInstance().TITANIUM, 12), - new MaterialStack(ALLOY.OSMIRIDIUM, 6)); - - // Piky Alloy - public static final Material PIKYONIUM = new Material( - "Pikyonium 64B", // Material Name - MaterialState.SOLID, // State - new short[] { 52, 103, 186, 0 }, // Material Colour - 6850, // Melting Point in C - 11765, // Boiling Point in C - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ALLOY.INCONEL_792, 16), - new MaterialStack(ALLOY.EGLIN_STEEL, 10), - new MaterialStack(ELEMENT.getInstance().NAQUADAH_ENRICHED, 8), - new MaterialStack(ELEMENT.getInstance().CERIUM, 6), - new MaterialStack(ELEMENT.getInstance().ANTIMONY, 4), - new MaterialStack(ELEMENT.getInstance().PLATINUM, 4), - new MaterialStack(ELEMENT.getInstance().YTTERBIUM, 2), - new MaterialStack(ALLOY.TUNGSTENSTEEL, 8)); - - // Piky Alloy - public static final Material ABYSSAL = new Material( - "Abyssal Alloy", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 9650, // Melting Point in C - 13765, // Boiling Point in C - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ALLOY.STAINLESS_STEEL, 10), - new MaterialStack(ALLOY.TUNGSTEN_CARBIDE, 10), - new MaterialStack(ALLOY.NICHROME, 10), - new MaterialStack(ALLOY.BRONZE, 10), - new MaterialStack(ALLOY.INCOLOY_MA956, 10), - new MaterialStack(ELEMENT.getInstance().IODINE, 2), - new MaterialStack(ELEMENT.getInstance().RADON, 2), - new MaterialStack(ELEMENT.getInstance().GERMANIUM, 2)); - - // Alkalus Alloy - public static final Material LAURENIUM = new Material( - "Laurenium", // Material Name - MaterialState.SOLID, // State - new short[] { 244, 168, 255, 0 }, // Material Colour - 6825, // Melting Point in C - 11355, // Boiling Point in C - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ALLOY.EGLIN_STEEL, 40), - new MaterialStack(ELEMENT.getInstance().INDIUM, 10), - new MaterialStack(ELEMENT.getInstance().CHROMIUM, 20), - new MaterialStack(ELEMENT.getInstance().DYSPROSIUM, 5), - new MaterialStack(ELEMENT.getInstance().RHENIUM, 5)); - - // Bot Alloy - public static final Material BOTMIUM = new Material( - "Botmium", // Material Name - MaterialState.SOLID, // State - new short[] { 80, 160, 80, 0 }, // Material Colour - 8220, // Melting Point in C - 10540, // Boiling Point in C - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ALLOY.NITINOL_60, 2), - new MaterialStack(ELEMENT.getInstance().OSMIUM, 12), - new MaterialStack(ELEMENT.getInstance().RUTHENIUM, 12), - new MaterialStack(ELEMENT.getInstance().THALLIUM, 6)); - - // Titansteel - public static final Material TITANSTEEL = new Material( - "Titansteel", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 8250, // Melting Point in C - 11765, // Boiling Point in C - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ALLOY.TUNGSTEN_TITANIUM_CARBIDE, 3), - new MaterialStack(ELEMENT.getInstance().IGNIS, 1), - new MaterialStack(ELEMENT.getInstance().TERRA, 1), - new MaterialStack(ELEMENT.getInstance().PERDITIO, 1)); - - public static final Material OCTIRON = new Material( - "Octiron", // Material Name - MaterialState.SOLID, // State - null, - 9120, // Melting Point in C - 14200, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ARCANITE, 30), - new MaterialStack(TITANSTEEL, 30), - new MaterialStack(ENERGYCRYSTAL, 5), - new MaterialStack(STEEL_BLACK, 10), - new MaterialStack(ELEMENT.getInstance().THAUMIUM, 25)); - - public static final Material BLACK_TITANIUM = new Material( - "Black Titanium", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - Materials.Titanium.mMeltingPoint * 4, // Melting Point in C - Materials.Titanium.mMeltingPoint * 16, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().TITANIUM, 55), - new MaterialStack(ELEMENT.getInstance().LANTHANUM, 12), - new MaterialStack(ELEMENT.getInstance().TUNGSTEN, 8), - new MaterialStack(ELEMENT.getInstance().COBALT, 6), - new MaterialStack(ELEMENT.getInstance().MANGANESE, 4), - new MaterialStack(ELEMENT.getInstance().PHOSPHORUS, 4), - new MaterialStack(ELEMENT.getInstance().PALLADIUM, 4), - new MaterialStack(ELEMENT.getInstance().NIOBIUM, 2), - new MaterialStack(ELEMENT.getInstance().ARGON, 5)); - - public static final Material BABBIT_ALLOY = new Material( - "Babbit Alloy", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 268, // Melting Point in C - 589, - -1, - -1, - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().TIN, 10), - new MaterialStack(ELEMENT.getInstance().LEAD, 72), - new MaterialStack(ELEMENT.getInstance().ANTIMONY, 16), - new MaterialStack(ELEMENT.getInstance().ARSENIC, 2)); - - public static final Material INDALLOY_140 = new Material( - "Indalloy 140", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 5200, // Melting Point in C - 6500, - -1, - -1, - false, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ELEMENT.getInstance().BISMUTH, 47), - new MaterialStack(ELEMENT.getInstance().LEAD, 25), - new MaterialStack(ELEMENT.getInstance().TIN, 13), - new MaterialStack(ELEMENT.getInstance().CADMIUM, 10), - new MaterialStack(ELEMENT.getInstance().INDIUM, 5)); - - // Quantum - public static final Material QUANTUM = new Material( - "Quantum", // Material Name - MaterialState.SOLID, // State - null, // Material Colour - 10500, // Melting Point in C - 25000, // Boiling Point in C - 150, // Protons - 200, // Neutrons - true, // Uses Blast furnace? - // Material Stacks with Percentage of required elements. - new MaterialStack(ALLOY.STELLITE, 15), - new MaterialStack(ALLOY.ENERGYCRYSTAL, 5), - new MaterialStack(ALLOY.SILICON_CARBIDE, 5), - new MaterialStack(ELEMENT.getInstance().GALLIUM, 5), - new MaterialStack(ELEMENT.getInstance().AMERICIUM, 5), - new MaterialStack(ELEMENT.getInstance().PALLADIUM, 5), - new MaterialStack(ELEMENT.getInstance().BISMUTH, 5), - new MaterialStack(ELEMENT.getInstance().GERMANIUM, 5)); -} diff --git a/src/main/java/gtPlusPlus/core/material/ELEMENT.java b/src/main/java/gtPlusPlus/core/material/ELEMENT.java deleted file mode 100644 index 9bcea2a47b..0000000000 --- a/src/main/java/gtPlusPlus/core/material/ELEMENT.java +++ /dev/null @@ -1,651 +0,0 @@ -package gtPlusPlus.core.material; - -import gregtech.api.enums.Materials; -import gregtech.api.enums.TextureSet; -import gtPlusPlus.api.objects.Logger; -import gtPlusPlus.core.client.CustomTextureSet.TextureSets; -import gtPlusPlus.core.material.state.MaterialState; -import gtPlusPlus.core.util.data.StringUtils; -import gtPlusPlus.core.util.minecraft.MaterialUtils; - -public final class ELEMENT { - - public static final String[] NAMES = new String[] { "Hydrogen", "Helium" }; - - // First 50 Elements - public final Material HYDROGEN = MaterialUtils.generateMaterialFromGtENUM(Materials.Hydrogen); - public final Material HELIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Helium); - public final Material LITHIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Lithium); - public final Material BERYLLIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Beryllium); - public final Material BORON = MaterialUtils.generateMaterialFromGtENUM(Materials.Boron); - public final Material CARBON = MaterialUtils.generateMaterialFromGtENUM(Materials.Carbon); - public final Material NITROGEN = MaterialUtils.generateMaterialFromGtENUM(Materials.Nitrogen); - public final Material OXYGEN = MaterialUtils.generateMaterialFromGtENUM(Materials.Oxygen); - public final Material FLUORINE = MaterialUtils.generateMaterialFromGtENUM(Materials.Fluorine); - public final Material NEON = new Material( - "Neon", - MaterialState.PURE_GAS, - new short[] { 240, 180, 30 }, - -248, - -246, - 10, - 10, - false, - "Ne", - 0); // Not a GT Inherited Material - public final Material SODIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Sodium); - public final Material MAGNESIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Magnesium); - public final Material ALUMINIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Aluminium); - public final Material ALUMINIUMOXIDE = MaterialUtils.generateMaterialFromGtENUM(Materials.Aluminiumoxide); - public final Material SILICON = MaterialUtils.generateMaterialFromGtENUM(Materials.Silicon); - public final Material SILICONDIOXIDE = MaterialUtils.generateMaterialFromGtENUM(Materials.SiliconDioxide); - public final Material PHOSPHORUS = MaterialUtils.generateMaterialFromGtENUM(Materials.Phosphorus); - public final Material SULFUR = MaterialUtils.generateMaterialFromGtENUM(Materials.Sulfur); - public final Material CHLORINE = MaterialUtils.generateMaterialFromGtENUM(Materials.Chlorine); - public final Material ARGON = MaterialUtils.generateMaterialFromGtENUM(Materials.Argon); - public final Material POTASSIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Potassium); - public final Material CALCIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Calcium); - public final Material SCANDIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Scandium); - public final Material TITANIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Titanium); - public final Material VANADIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Vanadium); - public final Material CHROMIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Chrome); - public final Material MANGANESE = MaterialUtils.generateMaterialFromGtENUM(Materials.Manganese); - public final Material IRON = MaterialUtils.generateMaterialFromGtENUM(Materials.Iron); - public final Material COBALT = MaterialUtils.generateMaterialFromGtENUM(Materials.Cobalt); - public final Material NICKEL = MaterialUtils.generateMaterialFromGtENUM(Materials.Nickel); - public final Material COPPER = MaterialUtils.generateMaterialFromGtENUM(Materials.Copper); - public final Material ZINC = MaterialUtils.generateMaterialFromGtENUM(Materials.Zinc); - public final Material GALLIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Gallium); - public final Material GERMANIUM = new Material( - "Germanium", - MaterialState.SOLID, - new short[] { 200, 200, 200 }, - 937, - 2830, - 32, - 41, - false, - "Ge", - 0); // Not a GT Inherited Material - public final Material ARSENIC = MaterialUtils.generateMaterialFromGtENUM(Materials.Arsenic); - public final Material SELENIUM = new Material( - "Selenium", - MaterialState.SOLID, - new short[] { 190, 190, 190 }, - 217, - 685, - 34, - 45, - false, - "Se", - 0); // Not a GT Inherited Material - public final Material BROMINE = new Material( - "Bromine", - MaterialState.PURE_LIQUID, - new short[] { 200, 25, 25 }, - -7, - 58, - 35, - 45, - false, - "Br", - 0); // Not a GT Inherited Material - public final Material KRYPTON = new Material( - "Krypton", - MaterialState.PURE_GAS, - new short[] { 5, 200, 220 }, - -157, - -153, - 36, - 48, - false, - "Kr", - 0); // Not a GT Inherited Material - public final Material RUBIDIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Rubidium); - public final Material STRONTIUM = MaterialUtils - .generateMaterialFromGtENUM(Materials.Strontium, new short[] { 230, 210, 110 }, TextureSet.SET_FLINT); - public final Material YTTRIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Yttrium); - public final Material ZIRCONIUM = new Material( - "Zirconium", - MaterialState.SOLID, - new short[] { 255, 250, 205 }, - 1855, - 4377, - 40, - 51, - false, - "Zr", - 0); // Not a GT Inherited Material - public final Material NIOBIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Niobium); - public final Material MOLYBDENUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Molybdenum); - - public final Material RUTHENIUM = new Material( - "Ruthenium", - MaterialState.SOLID, - new short[] { 220, 220, 220 }, - 2250, - 3900, - 44, - 57, - false, - "Ru", - 0); // Not a GT Inherited Material - public final Material RHODIUM = new Material( - "Rhodium", - MaterialState.SOLID, - new short[] { 220, 220, 220 }, - 1966, - 3727, - 45, - 58, - false, - "Rh", - 0); // Not a GT Inherited Material - public final Material AMERICIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Americium); - public final Material TECHNETIUM = new Material( - "Technetium", - MaterialState.SOLID, - TextureSets.NUCLEAR.get(), - new short[] { 220, 220, 220 }, - 2200, - 4877, - 43, - 55, - false, - "Tc", - 2); // Not a GT Inherited Material - public final Material NEPTUNIUM = new Material( - "Neptunium", - MaterialState.SOLID, - TextureSets.NUCLEAR.get(), - new short[] { 200, 220, 205 }, - 640, - 3902, - 93, - 144, - false, - "Np", - 2); // Not a GT Inherited Material - - public final Material PALLADIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Palladium); - public final Material SILVER = MaterialUtils.generateMaterialFromGtENUM(Materials.Silver); - public final Material CADMIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Cadmium); - public final Material INDIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Indium); - public final Material TIN = MaterialUtils.generateMaterialFromGtENUM(Materials.Tin); - public final Material ANTIMONY = MaterialUtils.generateMaterialFromGtENUM(Materials.Antimony); - public final Material TELLURIUM = new Material( - "Tellurium", - MaterialState.SOLID, - new short[] { 210, 210, 210 }, - 449, - 989, - 52, - 76, - false, - "Te", - 0); // Not a GT Inherited Material - public final Material IODINE = new Material( - "Iodine", - MaterialState.SOLID, - TextureSet.SET_SHINY, - new short[] { 96, 96, 96 }, - 114, - 184, - 53, - 74, - false, - "I", - 0); // Not a GT Inherited Material - public final Material XENON = new Material( - "Xenon", - MaterialState.PURE_GAS, - new short[] { 5, 105, 210 }, - -111, - -108, - 54, - 77, - false, - "Xe", - 0); // Not a GT Inherited Material - public final Material CAESIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Caesium); - public final Material BARIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Barium); - public final Material LANTHANUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Lanthanum); - public final Material CERIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Cerium); - public final Material PRASEODYMIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Praseodymium); - public final Material NEODYMIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Neodymium); - public final Material PROMETHIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Promethium); - public final Material SAMARIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Samarium); - public final Material EUROPIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Europium); - public final Material GADOLINIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Gadolinium); - public final Material TERBIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Terbium); - public final Material DYSPROSIUM = new Material( - "Dysprosium", - MaterialState.SOLID, - new short[] { 180, 180, 180 }, - 1412, - 2562, - 66, - 97, - false, - "Dy", - 0); // Not a GT Inherited Material - public final Material HOLMIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Holmium); - public final Material ERBIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Erbium); - public final Material THULIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Thulium); - public final Material YTTERBIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Ytterbium); - public final Material LUTETIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Lutetium); - public final Material HAFNIUM = new Material( - "Hafnium", - MaterialState.SOLID, - new short[] { 128, 128, 128 }, - 2150, - 5400, - 72, - 106, - false, - "Hf", - 0); // Not a GT Inherited Material - - // Second 50 elements - public final Material TANTALUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Tantalum); - public final Material TUNGSTEN = MaterialUtils.generateMaterialFromGtENUM(Materials.Tungsten); - public final Material RHENIUM = new Material( - "Rhenium", - MaterialState.SOLID, - new short[] { 150, 150, 150 }, - 3180, - 3627, - 75, - 111, - false, - "Re", - 0); // Not a GT Inherited Material - public final Material OSMIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Osmium); - public final Material IRIDIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Iridium); - public final Material PLATINUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Platinum); - public final Material GOLD = MaterialUtils.generateMaterialFromGtENUM(Materials.Gold); - public final Material MERCURY = MaterialUtils.generateMaterialFromGtENUM(Materials.Mercury); // Mercury - public final Material THALLIUM = new Material( - "Thallium", - MaterialState.SOLID, - new short[] { 175, 175, 175 }, - 304, - 1457, - 81, - 123, - false, - "Tl", - 0); // Not a GT Inherited Material - public final Material LEAD = MaterialUtils.generateMaterialFromGtENUM(Materials.Lead); - public final Material BISMUTH = MaterialUtils.generateMaterialFromGtENUM(Materials.Bismuth); - public final Material POLONIUM = new Material( - "Polonium", - MaterialState.SOLID, - TextureSets.NUCLEAR.get(), - new short[] { 180, 170, 180 }, - 254, - 962, - 84, - 125, - false, - "Po", - 1); // Not a GT Inherited Material - - public final Material RADON = MaterialUtils.generateMaterialFromGtENUM(Materials.Radon); - - public final Material RADIUM = new Material( - "Radium", - MaterialState.SOLID, - TextureSets.NUCLEAR.get(), - new short[] { 165, 165, 165 }, - 700, - 1737, - 88, - 138, - false, - "Ra", - 1); // Not a GT Inherited Material - - public final Material THORIUM = new Material( - "Thorium", - MaterialState.SOLID, - Materials.Thorium.mRGBa, - Materials.Thorium.mMeltingPoint, - Materials.Thorium.mBlastFurnaceTemp, - 90, - 142, - false, - StringUtils.superscript("Th"), - 1); - public final Material PROTACTINIUM = new Material( - "Protactinium", - MaterialState.SOLID, - TextureSets.NUCLEAR.get(), - new short[] { 190, 150, 170 }, - 1568, - 4027, - 91, - 140, - false, - "Pa", - 1); // Not a GT Inherited Material - public final Material URANIUM238 = MaterialUtils.generateMaterialFromGtENUM(Materials.Uranium); - public final Material URANIUM235 = MaterialUtils.generateMaterialFromGtENUM(Materials.Uranium235); - public final Material PLUTONIUM241 = MaterialUtils.generateMaterialFromGtENUM(Materials.Plutonium241); - public final Material CURIUM = new Material( - "Curium", - MaterialState.SOLID, - TextureSets.NUCLEAR.get(), - new short[] { 175, 85, 110 }, - 1340, - 3110, - 96, - 151, - false, - "Cm", - 3); // Not a GT Inherited Material - - public final Material CALIFORNIUM = new Material( - "Californium", - MaterialState.SOLID, - TextureSets.NUCLEAR.get(), - new short[] { 85, 110, 205 }, - 899, - 1472, - 98, - 153, - false, - "Cf", - 4); // Not a GT Inherited Material - - public final Material FERMIUM = new Material( - "Fermium", - MaterialState.LIQUID, - TextureSets.NUCLEAR.get(), - new short[] { 75, 90, 25 }, - 1527, - 3850, - 100, - 157, - false, - "Fm", - 5); // Not a GT Inherited Material //Boiling Point is made up - - // Misc - public final Material AER = MaterialUtils.generateMaterialFromGtENUM(Materials.InfusedAir, TextureSets.GEM_A.get()); - public final Material IGNIS = MaterialUtils - .generateMaterialFromGtENUM(Materials.InfusedFire, TextureSets.GEM_A.get()); - public final Material TERRA = MaterialUtils - .generateMaterialFromGtENUM(Materials.InfusedEarth, TextureSets.GEM_A.get()); - public final Material AQUA = MaterialUtils - .generateMaterialFromGtENUM(Materials.InfusedWater, TextureSets.GEM_A.get()); - public final Material PERDITIO = MaterialUtils - .generateMaterialFromGtENUM(Materials.InfusedEntropy, TextureSets.GEM_A.get()); - public final Material ORDO = MaterialUtils - .generateMaterialFromGtENUM(Materials.InfusedOrder, TextureSets.GEM_A.get()); - - public final Material NAQUADAH = MaterialUtils.generateMaterialFromGtENUM(Materials.Naquadah); - public final Material NAQUADAH_ENRICHED = MaterialUtils.generateMaterialFromGtENUM(Materials.NaquadahEnriched); - public final Material NAQUADRIA = MaterialUtils.generateMaterialFromGtENUM(Materials.Naquadria); - public final Material TRINIUM; - public final Material TRINIUM_REFINED; - // https://github.com/Blood-Asp/GT5-Unofficial/issues/609 - - // Custom Isotopes - public final Material LITHIUM7 = new Material( - "Lithium 7", - MaterialState.SOLID, - TextureSet.SET_SHINY, - Materials.Lithium.mRGBa, - Materials.Lithium.mMeltingPoint, - Materials.Lithium.mBlastFurnaceTemp, - Materials.Lithium.getProtons(), - Materials.Lithium.getNeutrons(), - Materials.Lithium.mBlastFurnaceRequired, - StringUtils.superscript("7Li"), - 0, - false); // Not a GT Inherited Material - public final Material URANIUM232 = new Material( - "Uranium 232", - MaterialState.SOLID, - TextureSets.NUCLEAR.get(), - new short[] { 88, 220, 103, 0 }, - 1132, - 4131, - 92, - 140, - false, - StringUtils.superscript("232U"), - 4); // Not a GT Inherited Material - public final Material URANIUM233 = new Material( - "Uranium 233", - MaterialState.SOLID, - TextureSets.NUCLEAR.get(), - new short[] { 73, 220, 83, 0 }, - 1132, - 4131, - 92, - 141, - false, - StringUtils.superscript("233U"), - 2); // Not a GT Inherited Material - public final Material THORIUM232 = new Material( - "Thorium 232", - MaterialState.SOLID, - TextureSets.NUCLEAR.get(), - new short[] { 15, 60, 15, 0 }, - Materials.Thorium.mMeltingPoint, - Materials.Thorium.mBlastFurnaceTemp, - 90, - 142, - false, - StringUtils.superscript("232Th"), - 1, - true); // Not a GT Inherited Material - - // RTG Fuels - public final Material PLUTONIUM238 = new Material( - "Plutonium-238", - MaterialState.SOLID, - TextureSets.NUCLEAR.get(), - Materials.Plutonium241.mDurability, - Materials.Plutonium241.mRGBa, - Materials.Plutonium241.mMeltingPoint, - Materials.Plutonium241.mBlastFurnaceTemp, - 94, - 144, - false, - StringUtils.superscript("238Pu"), - 2, - false); // Not a GT Inherited Material - - public final Material MAGIC = MaterialUtils - .generateMaterialFromGtENUM(Materials.Magic, new short[] { 10, 185, 140 }); - public final Material THAUMIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Thaumium); - - static { - Logger.MATERIALS("Initialising Base Elements."); - } - - private static final ELEMENT INSTANCE = new ELEMENT(); - - public ELEMENT() { - // GTNH Trinium Handling - TRINIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Trinium); - TRINIUM_REFINED = TRINIUM; - } - - public static ELEMENT getInstance() { - return INSTANCE; - } - - public static class STANDALONE { - - public static final Material CELESTIAL_TUNGSTEN = new Material( - "Celestial Tungsten", - MaterialState.SOLID, - TextureSets.REFINED.get(), - new short[] { 50, 50, 50, 2 }, - INSTANCE.TUNGSTEN.getMeltingPointC() + 6500, - INSTANCE.TUNGSTEN.getBoilingPointC() + 7500, - 160, - 101, - true, - "✦◆✦", - 0); // Not a GT Inherited Material - public static final Material ASTRAL_TITANIUM = new Material( - "Astral Titanium", - MaterialState.SOLID, - TextureSets.REFINED.get(), - new short[] { 220, 160, 240, 2 }, - INSTANCE.TITANIUM.getMeltingPointC() + 7500, - INSTANCE.TITANIUM.getBoilingPointC() + 7500, - 145, - 133, - true, - "✧◇✧", - 0); // Not a GT Inherited Material - public static final Material CHRONOMATIC_GLASS = new Material( - "Chromatic Glass", - MaterialState.SOLID, - new short[] { 255, 255, 255, 3 }, - 9200, - 17550, - 40, - 51, - false, - "⌘☯𓍰 𓍱 𓍲 𓍳 𓍴 𓍵 𓍶 𓍷 𓍸 ☯⌘ ", - 0); // Not a GT Inherited Material - public static final Material ADVANCED_NITINOL = new Material( - "Advanced Nitinol", - MaterialState.SOLID, - TextureSets.ENRICHED.get(), - ALLOY.NITINOL_60.getRGB(), - 8400, - 14377, - 40, - 51, - true, - StringUtils.subscript("⚷⚙⚷ Ni4Ti6"), - 0); // Not a GT Inherited Material - public static final Material HYPOGEN = new Material( - "Hypogen", - MaterialState.SOLID, - TextureSets.NUCLEAR.get(), - new short[] { 220, 120, 75, 2 }, - 11255, - 19377, - 240, - 251, - true, - "Hy⚶", - 0); // Not a GT Inherited Material - public static final Material RHUGNOR = new Material( - "Rhugnor", - MaterialState.SOLID, - TextureSets.ENRICHED.get(), - new short[] { 190, 0, 255, 0 }, - 8750, - 14757, - 184, - 142, - true, - "Fs⚶", - 0); // Not a GT Inherited Material //funeris - public static final Material FORCE = new Material( - "Force", - MaterialState.SOLID, - TextureSets.ENRICHED.get(), - new short[] { 250, 250, 20, 0 }, - 4550, - 6830, - 63, - 81, - true, - "Fc⚙", - 0); // Not a GT Inherited Material - - // Runescape materials - public static final Material BLACK_METAL = new Material( - "Black Metal", - MaterialState.SOLID, - TextureSet.SET_METALLIC, - new short[] { 5, 5, 5 }, - 2350, - 4650, - 24, - 17, - false, - "҈", - 0, - new MaterialStack[] { new MaterialStack(getInstance().LEAD, 15), - new MaterialStack(getInstance().MANGANESE, 25), new MaterialStack(getInstance().CARBON, 60) }); // Not - // a - // GT - // Inherited - // Material - public static final Material WHITE_METAL = new Material( - "White Metal", - MaterialState.SOLID, - TextureSet.SET_METALLIC, - new short[] { 255, 255, 255 }, - 4560, - 7580, - 35, - 41, - false, - "҉", - 0, - new MaterialStack[] { new MaterialStack(getInstance().COPPER, 5), - new MaterialStack(getInstance().ANTIMO