diff options
| author | draknyte1 <draknyte1@hotmail.com> | 2016-11-04 15:23:26 +1000 |
|---|---|---|
| committer | draknyte1 <draknyte1@hotmail.com> | 2016-11-04 15:23:26 +1000 |
| commit | 0669f5eb9d5029a8b94ec552171b0837605f7747 (patch) | |
| tree | 6b40e64c04d51b7a33cf2f0b35f7232cf37c4247 /src/Java/gtPlusPlus/core/material | |
| parent | 3654052fb63a571c5eaca7f20714b87c17f7e966 (diff) | |
| download | GT5-Unofficial-0669f5eb9d5029a8b94ec552171b0837605f7747.tar.gz GT5-Unofficial-0669f5eb9d5029a8b94ec552171b0837605f7747.tar.bz2 GT5-Unofficial-0669f5eb9d5029a8b94ec552171b0837605f7747.zip | |
$ Cleaned up the entire project.
> Much neat, very nices.
Diffstat (limited to 'src/Java/gtPlusPlus/core/material')
| -rw-r--r-- | src/Java/gtPlusPlus/core/material/ALLOY.java | 1268 | ||||
| -rw-r--r-- | src/Java/gtPlusPlus/core/material/ELEMENT.java | 171 | ||||
| -rw-r--r-- | src/Java/gtPlusPlus/core/material/Material.java | 598 | ||||
| -rw-r--r-- | src/Java/gtPlusPlus/core/material/MaterialGenerator.java | 82 | ||||
| -rw-r--r-- | src/Java/gtPlusPlus/core/material/MaterialStack.java | 98 |
5 files changed, 1340 insertions, 877 deletions
diff --git a/src/Java/gtPlusPlus/core/material/ALLOY.java b/src/Java/gtPlusPlus/core/material/ALLOY.java index 56cc6d1343..53711a3a9f 100644 --- a/src/Java/gtPlusPlus/core/material/ALLOY.java +++ b/src/Java/gtPlusPlus/core/material/ALLOY.java @@ -1,559 +1,1015 @@ package gtPlusPlus.core.material; - public final class ALLOY { - public static final Material ENERGYCRYSTAL = new Material( - "Energy Crystal", //Material Name - new short[]{228, 255, 0, 0}, //Material Colour - 5660, //Melting Point in C - 0, //Boiling Point in C - 100, //Protons - 100, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. + public static final Material ENERGYCRYSTAL = new Material("Energy Crystal", // Material + // Name + new short[] { + 228, 255, 0, 0 + }, // Material + // Colour + 5660, // Melting + // Point + // in + // C + 0, // Boiling + // Point + // in + // C + 100, // Protons + 100, // Neutrons + true, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. null); - public static final Material BLOODSTEEL = new Material( - "Blood Steel", //Material Name - 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. + public static final Material BLOODSTEEL = new Material("Blood Steel", // Material + // Name + 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. null); - public static final Material STABALLOY = new Material( - "Staballoy", //Material Name - new short[]{68, 75, 66, 0}, //Material Colour - 3450, //Melting Point in C - ((ELEMENT.getInstance().URANIUM.getBoilingPointC()*9)+(ELEMENT.getInstance().TITANIUM.getBoilingPointC()*1))/10, //Boiling Point in C - ((ELEMENT.getInstance().URANIUM.getProtons()*9)+ELEMENT.getInstance().TITANIUM.getProtons())/10, //Protons - ((ELEMENT.getInstance().URANIUM.getNeutrons()*9)+ELEMENT.getInstance().TITANIUM.getNeutrons())/10, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material STABALLOY = new Material("Staballoy", // Material + // Name + new short[] { + 68, 75, 66, 0 + }, // Material + // Colour + 3450, // Melting + // Point + // in + // C + (ELEMENT.getInstance().URANIUM.getBoilingPointC() * 9 + + ELEMENT.getInstance().TITANIUM.getBoilingPointC() * 1) / 10, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().URANIUM.getProtons() * 9 + ELEMENT.getInstance().TITANIUM.getProtons()) / 10, // Protons + (ELEMENT.getInstance().URANIUM.getNeutrons() * 9 + ELEMENT.getInstance().TITANIUM.getNeutrons()) / 10, // Neutrons + true, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { new MaterialStack(ELEMENT.getInstance().URANIUM, 9), new MaterialStack(ELEMENT.getInstance().TITANIUM, 1) }); - public static final Material TANTALLOY_60 = new Material( - "Tantalloy-60", //Material Name - new short[]{213, 231, 237, 0}, //Material Colour - 3025, //Melting Point in C - ((ELEMENT.getInstance().TUNGSTEN.getBoilingPointC()*1)+(ELEMENT.getInstance().TANTALUM.getBoilingPointC()*8)+(ELEMENT.getInstance().TITANIUM.getBoilingPointC()*1))/10, //Boiling Point in C - ((ELEMENT.getInstance().TUNGSTEN.getProtons()*1)+(ELEMENT.getInstance().TANTALUM.getProtons()*8)+(ELEMENT.getInstance().TITANIUM.getProtons()*1))/10, //Protons - ((ELEMENT.getInstance().TUNGSTEN.getNeutrons()*1)+(ELEMENT.getInstance().TANTALUM.getNeutrons()*8)+(ELEMENT.getInstance().TITANIUM.getNeutrons()*1))/10, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material TANTALLOY_60 = new Material("Tantalloy-60", // Material + // Name + new short[] { + 213, 231, 237, 0 + }, // Material + // Colour + 3025, // Melting + // Point + // in + // C + (ELEMENT.getInstance().TUNGSTEN.getBoilingPointC() * 1 + + ELEMENT.getInstance().TANTALUM.getBoilingPointC() * 8 + + ELEMENT.getInstance().TITANIUM.getBoilingPointC() * 1) / 10, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().TUNGSTEN.getProtons() * 1 + ELEMENT.getInstance().TANTALUM.getProtons() * 8 + + ELEMENT.getInstance().TITANIUM.getProtons() * 1) / 10, // Protons + (ELEMENT.getInstance().TUNGSTEN.getNeutrons() * 1 + ELEMENT.getInstance().TANTALUM.getNeutrons() * 8 + + ELEMENT.getInstance().TITANIUM.getNeutrons() * 1) / 10, // Neutrons + true, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { new MaterialStack(ELEMENT.getInstance().TUNGSTEN, 4), new MaterialStack(ELEMENT.getInstance().TANTALUM, 46) }); - public static final Material TANTALLOY_61 = new Material( - "Tantalloy-61", //Material Name - new short[]{193, 211, 217, 0}, //Material Colour - 3030, //Melting Point in C - ((ELEMENT.getInstance().TUNGSTEN.getBoilingPointC()*1)+(ELEMENT.getInstance().TANTALUM.getBoilingPointC()*7)+(ELEMENT.getInstance().TITANIUM.getBoilingPointC()*1)+(ELEMENT.getInstance().YTTRIUM.getBoilingPointC()*1))/10, //Boiling Point in C - ((ELEMENT.getInstance().TUNGSTEN.getProtons()*1)+(ELEMENT.getInstance().TANTALUM.getProtons()*7)+(ELEMENT.getInstance().TITANIUM.getProtons()*1)+(ELEMENT.getInstance().YTTRIUM.getProtons()*1))/10, //Protons - ((ELEMENT.getInstance().TUNGSTEN.getNeutrons()*1)+(ELEMENT.getInstance().TANTALUM.getNeutrons()*7)+(ELEMENT.getInstance().TITANIUM.getNeutrons()*1)+(ELEMENT.getInstance().YTTRIUM.getNeutrons()*1))/10, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ - new MaterialStack(ALLOY.TANTALLOY_60, 2), - new MaterialStack(ELEMENT.getInstance().TITANIUM, 12), + public static final Material TANTALLOY_61 = new Material("Tantalloy-61", // Material + // Name + new short[] { + 193, 211, 217, 0 + }, // Material + // Colour + 3030, // Melting + // Point + // in + // C + (ELEMENT.getInstance().TUNGSTEN.getBoilingPointC() * 1 + + ELEMENT.getInstance().TANTALUM.getBoilingPointC() * 7 + + ELEMENT.getInstance().TITANIUM.getBoilingPointC() * 1 + + ELEMENT.getInstance().YTTRIUM.getBoilingPointC() * 1) / 10, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().TUNGSTEN.getProtons() * 1 + ELEMENT.getInstance().TANTALUM.getProtons() * 7 + + ELEMENT.getInstance().TITANIUM.getProtons() * 1 + ELEMENT.getInstance().YTTRIUM.getProtons() * 1) + / 10, // Protons + (ELEMENT.getInstance().TUNGSTEN.getNeutrons() * 1 + ELEMENT.getInstance().TANTALUM.getNeutrons() * 7 + + ELEMENT.getInstance().TITANIUM.getNeutrons() * 1 + + ELEMENT.getInstance().YTTRIUM.getNeutrons() * 1) / 10, // Neutrons + true, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { + new MaterialStack(ALLOY.TANTALLOY_60, 2), new MaterialStack(ELEMENT.getInstance().TITANIUM, 12), new MaterialStack(ELEMENT.getInstance().YTTRIUM, 8) }); - public static final Material BRONZE = new Material( - "Bronze", //Material Name - new short[]{128, 128, 128, 0}, //Material Colour - ((ELEMENT.getInstance().TIN.getMeltingPointC()*1)+(ELEMENT.getInstance().COPPER.getMeltingPointC()*3))/4, //Melting point in C - ((ELEMENT.getInstance().TIN.getBoilingPointC()*1)+(ELEMENT.getInstance().COPPER.getBoilingPointC()*3))/4, //Boiling Point in C - ((ELEMENT.getInstance().TIN.getProtons()*1)+(ELEMENT.getInstance().COPPER.getProtons()*3))/4, //Protons - ((ELEMENT.getInstance().TIN.getNeutrons()*1)+(ELEMENT.getInstance().COPPER.getNeutrons()*3))/4, //Neutrons - false, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material BRONZE = new Material("Bronze", // Material + // Name + new short[] { + 128, 128, 128, 0 + }, // Material + // Colour + (ELEMENT.getInstance().TIN.getMeltingPointC() * 1 + ELEMENT.getInstance().COPPER.getMeltingPointC() * 3) + / 4, // Melting + // point + // in + // C + (ELEMENT.getInstance().TIN.getBoilingPointC() * 1 + ELEMENT.getInstance().COPPER.getBoilingPointC() * 3) + / 4, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().TIN.getProtons() * 1 + ELEMENT.getInstance().COPPER.getProtons() * 3) / 4, // Protons + (ELEMENT.getInstance().TIN.getNeutrons() * 1 + ELEMENT.getInstance().COPPER.getNeutrons() * 3) / 4, // Neutrons + false, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { new MaterialStack(ELEMENT.getInstance().COPPER, 35), new MaterialStack(ELEMENT.getInstance().COPPER, 40), new MaterialStack(ELEMENT.getInstance().TIN, 25) }); - public static final Material TUMBAGA = new Material( - "Tumbaga", //Material Name - new short[]{255,178,15, 0}, //Material Colour - ((ELEMENT.getInstance().GOLD.getMeltingPointC()*7)+(ELEMENT.getInstance().COPPER.getMeltingPointC()*3))/10, //Melting point in C - ((ELEMENT.getInstance().GOLD.getBoilingPointC()*7)+(ELEMENT.getInstance().COPPER.getBoilingPointC()*3))/10, //Boiling Point in C - ((ELEMENT.getInstance().GOLD.getProtons()*7)+(ELEMENT.getInstance().COPPER.getProtons()*3))/10, //Protons - ((ELEMENT.getInstance().GOLD.getNeutrons()*7)+(ELEMENT.getInstance().COPPER.getNeutrons()*3))/10, //Neutrons - false, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material TUMBAGA = new Material("Tumbaga", // Material + // Name + new short[] { + 255, 178, 15, 0 + }, // Material + // Colour + (ELEMENT.getInstance().GOLD.getMeltingPointC() * 7 + ELEMENT.getInstance().COPPER.getMeltingPointC() * 3) + / 10, // Melting + // point + // in + // C + (ELEMENT.getInstance().GOLD.getBoilingPointC() * 7 + ELEMENT.getInstance().COPPER.getBoilingPointC() * 3) + / 10, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().GOLD.getProtons() * 7 + ELEMENT.getInstance().COPPER.getProtons() * 3) / 10, // Protons + (ELEMENT.getInstance().GOLD.getNeutrons() * 7 + ELEMENT.getInstance().COPPER.getNeutrons() * 3) / 10, // Neutrons + false, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { new MaterialStack(ELEMENT.getInstance().GOLD, 30), new MaterialStack(ELEMENT.getInstance().GOLD, 40), new MaterialStack(ELEMENT.getInstance().COPPER, 30) }); - public static final Material POTIN = new Material( - "Potin", //Material Name - new short[]{201,151,129, 0}, //Material Colour - ((ELEMENT.getInstance().LEAD.getMeltingPointC()*4)+(ALLOY.BRONZE.getMeltingPointC()*4)+(ELEMENT.getInstance().TIN.getMeltingPointC()*2))/10, //Melting point in C - ((ELEMENT.getInstance().LEAD.getBoilingPointC()*4)+(ALLOY.BRONZE.getBoilingPointC()*4)+(ELEMENT.getInstance().TIN.getBoilingPointC()*2))/10, //Boiling Point in C - ((ELEMENT.getInstance().LEAD.getProtons()*4)+(ALLOY.BRONZE.getProtons()*4)+(ELEMENT.getInstance().TIN.getProtons()*2))/10, //Protons - ((ELEMENT.getInstance().LEAD.getNeutrons()*4)+(ALLOY.BRONZE.getNeutrons()*4)+(ELEMENT.getInstance().TIN.getNeutrons()*2))/10, //Neutrons - false, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ - new MaterialStack(ELEMENT.getInstance().LEAD, 40), - new MaterialStack(ALLOY.BRONZE, 40), + public static final Material POTIN = new Material("Potin", // Material + // Name + new short[] { + 201, 151, 129, 0 + }, // Material + // Colour + (ELEMENT.getInstance().LEAD.getMeltingPointC() * 4 + ALLOY.BRONZE.getMeltingPointC() * 4 + + ELEMENT.getInstance().TIN.getMeltingPointC() * 2) / 10, // Melting + // point + // in + // C + (ELEMENT.getInstance().LEAD.getBoilingPointC() * 4 + ALLOY.BRONZE.getBoilingPointC() * 4 + + ELEMENT.getInstance().TIN.getBoilingPointC() * 2) / 10, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().LEAD.getProtons() * 4 + ALLOY.BRONZE.getProtons() * 4 + + ELEMENT.getInstance().TIN.getProtons() * 2) / 10, // Protons + (ELEMENT.getInstance().LEAD.getNeutrons() * 4 + ALLOY.BRONZE.getNeutrons() * 4 + + ELEMENT.getInstance().TIN.getNeutrons() * 2) / 10, // Neutrons + false, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { + 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. + 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 - new short[]{128, 200, 128, 0}, //Material Colour - 1425, //Melting Point in C - ((ELEMENT.getInstance().NICKEL.getBoilingPointC()*6)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*2)+(ELEMENT.getInstance().IRON.getBoilingPointC()*1)+(ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC()*1))/10, //Boiling Point in C - ((ELEMENT.getInstance().NICKEL.getProtons()*6)+(ELEMENT.getInstance().CHROMIUM.getProtons()*2)+(ELEMENT.getInstance().IRON.getProtons()*1)+(ELEMENT.getInstance().MOLYBDENUM.getProtons()*1))/10, //Protons - ((ELEMENT.getInstance().NICKEL.getNeutrons()*6)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*2)+(ELEMENT.getInstance().IRON.getNeutrons()*1)+(ELEMENT.getInstance().MOLYBDENUM.getNeutrons()*1))/10, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material INCONEL_625 = new Material("Inconel-625", // Material + // Name + new short[] { + 128, 200, 128, 0 + }, // Material + // Colour + 1425, // Melting + // Point + // in + // C + (ELEMENT.getInstance().NICKEL.getBoilingPointC() * 6 + ELEMENT.getInstance().CHROMIUM.getBoilingPointC() * 2 + + ELEMENT.getInstance().IRON.getBoilingPointC() * 1 + + ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC() * 1) / 10, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().NICKEL.getProtons() * 6 + ELEMENT.getInstance().CHROMIUM.getProtons() * 2 + + ELEMENT.getInstance().IRON.getProtons() * 1 + ELEMENT.getInstance().MOLYBDENUM.getProtons() * 1) + / 10, // Protons + (ELEMENT.getInstance().NICKEL.getNeutrons() * 6 + ELEMENT.getInstance().CHROMIUM.getNeutrons() * 2 + + ELEMENT.getInstance().IRON.getNeutrons() * 1 + ELEMENT.getInstance().MOLYBDENUM.getNeutrons() * 1) + / 10, // Neutrons + true, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { new MaterialStack(ELEMENT.getInstance().NICKEL, 60), new MaterialStack(ELEMENT.getInstance().CHROMIUM, 20), new MaterialStack(ELEMENT.getInstance().IRON, 10), new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 10) }); - public static final Material INCONEL_690 = new Material( - "Inconel-690", //Material Name - new short[]{118, 220, 138, 0}, //Material Colour - 1425, //Melting Point in C - ((ELEMENT.getInstance().NICKEL.getBoilingPointC()*6)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*2)+(ELEMENT.getInstance().NIOBIUM.getBoilingPointC()*1)+(ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC()*1))/10, //Boiling Point in C - ((ELEMENT.getInstance().NICKEL.getProtons()*6)+(ELEMENT.getInstance().CHROMIUM.getProtons()*2)+(ELEMENT.getInstance().NIOBIUM.getProtons()*1)+(ELEMENT.getInstance().MOLYBDENUM.getProtons()*1))/10, //Protons - ((ELEMENT.getInstance().NICKEL.getNeutrons()*6)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*2)+(ELEMENT.getInstance().NIOBIUM.getNeutrons()*1)+(ELEMENT.getInstance().MOLYBDENUM.getNeutrons()*1))/10, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material INCONEL_690 = new Material("Inconel-690", // Material + // Name + new short[] { + 118, 220, 138, 0 + }, // Material + // Colour + 1425, // Melting + // Point + // in + // C + (ELEMENT.getInstance().NICKEL.getBoilingPointC() * 6 + ELEMENT.getInstance().CHROMIUM.getBoilingPointC() * 2 + + ELEMENT.getInstance().NIOBIUM.getBoilingPointC() * 1 + + ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC() * 1) / 10, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().NICKEL.getProtons() * 6 + ELEMENT.getInstance().CHROMIUM.getProtons() * 2 + + ELEMENT.getInstance().NIOBIUM.getProtons() * 1 + + ELEMENT.getInstance().MOLYBDENUM.getProtons() * 1) / 10, // Protons + (ELEMENT.getInstance().NICKEL.getNeutrons() * 6 + ELEMENT.getInstance().CHROMIUM.getNeutrons() * 2 + + ELEMENT.getInstance().NIOBIUM.getNeutrons() * 1 + + ELEMENT.getInstance().MOLYBDENUM.getNeutrons() * 1) / 10, // Neutrons + true, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { new MaterialStack(ELEMENT.getInstance().NICKEL, 60), new MaterialStack(ELEMENT.getInstance().CHROMIUM, 20), new MaterialStack(ELEMENT.getInstance().NIOBIUM, 10), new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 10) }); - public static final Material INCONEL_792 = new Material( - "Inconel-792", //Material Name - new short[]{108, 240, 118, 0}, //Material Colour - 1425, //Melting Point in C - ((ELEMENT.getInstance().NICKEL.getBoilingPointC()*6)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*1)+(ELEMENT.getInstance().IRON.getBoilingPointC()*1)+(ELEMENT.getInstance().ALUMINIUM.getBoilingPointC()*2))/10, //Boiling Point in C - ((ELEMENT.getInstance().NICKEL.getProtons()*6)+(ELEMENT.getInstance().CHROMIUM.getProtons()*1)+(ELEMENT.getInstance().IRON.getProtons()*1)+(ELEMENT.getInstance().ALUMINIUM.getProtons()*2))/10, //Protons - ((ELEMENT.getInstance().NICKEL.getNeutrons()*6)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*1)+(ELEMENT.getInstance().IRON.getNeutrons()*1)+(ELEMENT.getInstance().ALUMINIUM.getNeutrons()*2))/10, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material INCONEL_792 = new Material("Inconel-792", // Material + // Name + new short[] { + 108, 240, 118, 0 + }, // Material + // Colour + 1425, // Melting + // Point + // in + // C + (ELEMENT.getInstance().NICKEL.getBoilingPointC() * 6 + ELEMENT.getInstance().CHROMIUM.getBoilingPointC() * 1 + + ELEMENT.getInstance().IRON.getBoilingPointC() * 1 + + ELEMENT.getInstance().ALUMINIUM.getBoilingPointC() * 2) / 10, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().NICKEL.getProtons() * 6 + ELEMENT.getInstance().CHROMIUM.getProtons() * 1 + + ELEMENT.getInstance().IRON.getProtons() * 1 + ELEMENT.getInstance().ALUMINIUM.getProtons() * 2) + / 10, // Protons + (ELEMENT.getInstance().NICKEL.getNeutrons() * 6 + ELEMENT.getInstance().CHROMIUM.getNeutrons() * 1 + + ELEMENT.getInstance().IRON.getNeutrons() * 1 + ELEMENT.getInstance().ALUMINIUM.getNeutrons() * 2) + / 10, // Neutrons + true, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { new MaterialStack(ELEMENT.getInstance().NICKEL, 60), new MaterialStack(ELEMENT.getInstance().CHROMIUM, 10), new MaterialStack(ELEMENT.getInstance().NIOBIUM, 10), new MaterialStack(ELEMENT.getInstance().ALUMINIUM, 20) }); - - public static final Material STEEL = new Material( - "Steel", //Material Name - new short[]{180, 180, 20, 0}, //Material Colour - ((ELEMENT.getInstance().CARBON.getMeltingPointC()*5)+(ELEMENT.getInstance().IRON.getMeltingPointC()*95))/100, //Melting point in C - ((ELEMENT.getInstance().CARBON.getBoilingPointC()*5)+(ELEMENT.getInstance().IRON.getBoilingPointC()*95))/100, //Boiling Point in C - ((ELEMENT.getInstance().CARBON.getProtons()*5)+(ELEMENT.getInstance().IRON.getProtons()*95))/100, //Protons - ((ELEMENT.getInstance().CARBON.getNeutrons()*5)+(ELEMENT.getInstance().IRON.getNeutrons()*95))/100, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + + public static final Material STEEL = new Material("Steel", // Material + // Name + new short[] { + 180, 180, 20, 0 + }, // Material + // Colour + (ELEMENT.getInstance().CARBON.getMeltingPointC() * 5 + ELEMENT.getInstance().IRON.getMeltingPointC() * 95) + / 100, // Melting + // point + // in + // C + (ELEMENT.getInstance().CARBON.getBoilingPointC() * 5 + ELEMENT.getInstance().IRON.getBoilingPointC() * 95) + / 100, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().CARBON.getProtons() * 5 + ELEMENT.getInstance().IRON.getProtons() * 95) / 100, // Protons + (ELEMENT.getInstance().CARBON.getNeutrons() * 5 + ELEMENT.getInstance().IRON.getNeutrons() * 95) / 100, // Neutrons + true, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { new MaterialStack(ELEMENT.getInstance().CARBON, 10), new MaterialStack(ELEMENT.getInstance().IRON, 30), - new MaterialStack(ELEMENT.getInstance().IRON, 30), - new MaterialStack(ELEMENT.getInstance().IRON, 30) + new MaterialStack(ELEMENT.getInstance().IRON, 30), new MaterialStack(ELEMENT.getInstance().IRON, 30) }); - public static final Material ZERON_100 = new Material( - "Zeron-100", //Material Name - new short[]{180, 180, 20, 0}, //Material Colour - ((ELEMENT.getInstance().CHROMIUM.getMeltingPointC()*25)+(ELEMENT.getInstance().NICKEL.getMeltingPointC()*6)+(ELEMENT.getInstance().COBALT.getMeltingPointC()*9)+(ALLOY.STEEL.getMeltingPointC()*60))/100, //Melting Point in C - ((ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*25)+(ELEMENT.getInstance().NICKEL.getBoilingPointC()*6)+(ELEMENT.getInstance().COBALT.getBoilingPointC()*9)+(ALLOY.STEEL.getBoilingPointC()*60))/100, //Boiling Point in C - ((ELEMENT.getInstance().CHROMIUM.getProtons()*25)+(ELEMENT.getInstance().NICKEL.getProtons()*6)+(ELEMENT.getInstance().COBALT.getProtons()*9)+(ALLOY.STEEL.getProtons()*60))/100, //Protons - ((ELEMENT.getInstance().CHROMIUM.getNeutrons()*25)+(ELEMENT.getInstance().NICKEL.getNeutrons()*6)+(ELEMENT.getInstance().COBALT.getNeutrons()*9)+(ALLOY.STEEL.getNeutrons()*60))/100, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material ZERON_100 = new Material("Zeron-100", // Material + // Name + new short[] { + 180, 180, 20, 0 + }, // Material + // Colour + (ELEMENT.getInstance().CHROMIUM.getMeltingPointC() * 25 + + ELEMENT.getInstance().NICKEL.getMeltingPointC() * 6 + + ELEMENT.getInstance().COBALT.getMeltingPointC() * 9 + ALLOY.STEEL.getMeltingPointC() * 60) / 100, // Melting + // Point + // in + // C + (ELEMENT.getInstance().CHROMIUM.getBoilingPointC() * 25 + + ELEMENT.getInstance().NICKEL.getBoilingPointC() * 6 + + ELEMENT.getInstance().COBALT.getBoilingPointC() * 9 + ALLOY.STEEL.getBoilingPointC() * 60) / 100, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().CHROMIUM.getProtons() * 25 + ELEMENT.getInstance().NICKEL.getProtons() * 6 + + ELEMENT.getInstance().COBALT.getProtons() * 9 + ALLOY.STEEL.getProtons() * 60) / 100, // Protons + (ELEMENT.getInstance().CHROMIUM.getNeutrons() * 25 + ELEMENT.getInstance().NICKEL.getNeutrons() * 6 + + ELEMENT.getInstance().COBALT.getNeutrons() * 9 + ALLOY.STEEL.getNeutrons() * 60) / 100, // Neutrons + true, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { 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 - new short[]{140, 140, 140, 0}, //Material Colour - 1413, //Melting Point in C - ((ELEMENT.getInstance().TITANIUM.getBoilingPointC()*5)+(ELEMENT.getInstance().NICKEL.getBoilingPointC()*16)+(ELEMENT.getInstance().COBALT.getBoilingPointC()*9)+(ALLOY.STEEL.getBoilingPointC()*70))/100, //Boiling Point in C - ((ELEMENT.getInstance().TITANIUM.getProtons()*5)+(ELEMENT.getInstance().NICKEL.getProtons()*16)+(ELEMENT.getInstance().COBALT.getProtons()*9)+(ALLOY.STEEL.getProtons()*70))/100, //Protons - ((ELEMENT.getInstance().TITANIUM.getNeutrons()*5)+(ELEMENT.getInstance().NICKEL.getNeutrons()*16)+(ELEMENT.getInstance().COBALT.getNeutrons()*9)+(ALLOY.STEEL.getNeutrons()*70))/100, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ - new MaterialStack(ALLOY.STEEL, 64), - new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 4), + new MaterialStack(ELEMENT.getInstance().TUNGSTEN, 4), new MaterialStack(ALLOY.STEEL, 40) + }); + + public static final Material MARAGING250 = new Material("Maraging Steel 250", // Material + // Name + new short[] { + 140, 140, 140, 0 + }, // Material + // Colour + 1413, // Melting + // Point + // in + // C + (ELEMENT.getInstance().TITANIUM.getBoilingPointC() * 5 + + ELEMENT.getInstance().NICKEL.getBoilingPointC() * 16 + + ELEMENT.getInstance().COBALT.getBoilingPointC() * 9 + ALLOY.STEEL.getBoilingPointC() * 70) / 100, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().TITANIUM.getProtons() * 5 + ELEMENT.getInstance().NICKEL.getProtons() * 16 + + ELEMENT.getInstance().COBALT.getProtons() * 9 + ALLOY.STEEL.getProtons() * 70) / 100, // Protons + (ELEMENT.getInstance().TITANIUM.getNeutrons() * 5 + ELEMENT.getInstance().NICKEL.getNeutrons() * 16 + + ELEMENT.getInstance().COBALT.getNeutrons() * 9 + ALLOY.STEEL.getNeutrons() * 70) / 100, // Neutrons + true, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { + 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 - new short[]{150, 150, 150, 0}, //Material Colour - 1413, //Melting Point in C - ((ELEMENT.getInstance().TITANIUM.getBoilingPointC()*10)+(ELEMENT.getInstance().NICKEL.getBoilingPointC()*21)+(ELEMENT.getInstance().COBALT.getBoilingPointC()*14)+(ALLOY.STEEL.getBoilingPointC()*55))/100, //Boiling Point in C - ((ELEMENT.getInstance().TITANIUM.getProtons()*10)+(ELEMENT.getInstance().NICKEL.getProtons()*21)+(ELEMENT.getInstance().COBALT.getProtons()*14)+(ALLOY.STEEL.getProtons()*55))/100, //Protons - ((ELEMENT.getInstance().TITANIUM.getNeutrons()*10)+(ELEMENT.getInstance().NICKEL.getNeutrons()*21)+(ELEMENT.getInstance().COBALT.getNeutrons()*14)+(ALLOY.STEEL.getNeutrons()*55))/100, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ - 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 MARAGING300 = new Material("Maraging Steel 300", // Material + // Name + new short[] { + 150, 150, 150, 0 + }, // Material + // Colour + 1413, // Melting + // Point + // in + // C + (ELEMENT.getInstance().TITANIUM.getBoilingPointC() * 10 + + ELEMENT.getInstance().NICKEL.getBoilingPointC() * 21 + + ELEMENT.getInstance().COBALT.getBoilingPointC() * 14 + ALLOY.STEEL.getBoilingPointC() * 55) / 100, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().TITANIUM.getProtons() * 10 + ELEMENT.getInstance().NICKEL.getProtons() * 21 + + ELEMENT.getInstance().COBALT.getProtons() * 14 + ALLOY.STEEL.getProtons() * 55) / 100, // Protons + (ELEMENT.getInstance().TITANIUM.getNeutrons() * 10 + ELEMENT.getInstance().NICKEL.getNeutrons() * 21 + + ELEMENT.getInstance().COBALT.getNeutrons() * 14 + ALLOY.STEEL.getNeutrons() * 55) / 100, // Neutrons + true, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { + 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 - new short[]{160, 160, 160, 0}, //Material Colour - 1413, //Melting Point in C - ((ELEMENT.getInstance().TITANIUM.getBoilingPointC()*15)+(ELEMENT.getInstance().NICKEL.getBoilingPointC()*21)+(ELEMENT.getInstance().COBALT.getBoilingPointC()*9)+(ALLOY.STEEL.getBoilingPointC()*55))/100, //Boiling Point in C - ((ELEMENT.getInstance().TITANIUM.getProtons()*15)+(ELEMENT.getInstance().NICKEL.getProtons()*21)+(ELEMENT.getInstance().COBALT.getProtons()*9)+(ALLOY.STEEL.getProtons()*55))/100, //Protons - ((ELEMENT.getInstance().TITANIUM.getNeutrons()*15)+(ELEMENT.getInstance().NICKEL.getNeutrons()*21)+(ELEMENT.getInstance().COBALT.getNeutrons()*9)+(ALLOY.STEEL.getNeutrons()*55))/100, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ - 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 MARAGING350 = new Material("Maraging Steel 350", // Material + // Name + new short[] { + 160, 160, 160, 0 + }, // Material + // Colour + 1413, // Melting + // Point + // in + // C + (ELEMENT.getInstance().TITANIUM.getBoilingPointC() * 15 + + ELEMENT.getInstance().NICKEL.getBoilingPointC() * 21 + + ELEMENT.getInstance().COBALT.getBoilingPointC() * 9 + ALLOY.STEEL.getBoilingPointC() * 55) / 100, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().TITANIUM.getProtons() * 15 + ELEMENT.getInstance().NICKEL.getProtons() * 21 + + ELEMENT.getInstance().COBALT.getProtons() * 9 + ALLOY.STEEL.getProtons() * 55) / 100, // Protons + (ELEMENT.getInstance().TITANIUM.getNeutrons() * 15 + ELEMENT.getInstance().NICKEL.getNeutrons() * 21 + + ELEMENT.getInstance().COBALT.getNeutrons() * 9 + ALLOY.STEEL.getNeutrons() * 55) / 100, // Neutrons + true, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { + 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 STELLITE = new Material( - "Stellite", //Material Name - new short[]{129, 75, 120, 0}, //Material Colour - 1310, //Melting Point in C - ((ELEMENT.getInstance().TITANIUM.getBoilingPointC()*10)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*35)+(ELEMENT.getInstance().COBALT.getBoilingPointC()*35)+(ELEMENT.getInstance().MANGANESE.getBoilingPointC()*20))/100, //Boiling Point in C - ((ELEMENT.getInstance().TITANIUM.getProtons()*10)+(ELEMENT.getInstance().CHROMIUM.getProtons()*35)+(ELEMENT.getInstance().COBALT.getProtons()*35)+(ELEMENT.getInstance().MANGANESE.getProtons()*20))/100, //Protons - ((ELEMENT.getInstance().TITANIUM.getNeutrons()*10)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*35)+(ELEMENT.getInstance().COBALT.getNeutrons()*35)+(ELEMENT.getInstance().MANGANESE.getNeutrons()*20))/100, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material STELLITE = new Material("Stellite", // Material + // Name + new short[] { + 129, 75, 120, 0 + }, // Material + // Colour + 1310, // Melting + // Point + // in + // C + (ELEMENT.getInstance().TITANIUM.getBoilingPointC() * 10 + + ELEMENT.getInstance().CHROMIUM.getBoilingPointC() * 35 + + ELEMENT.getInstance().COBALT.getBoilingPointC() * 35 + + ELEMENT.getInstance().MANGANESE.getBoilingPointC() * 20) / 100, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().TITANIUM.getProtons() * 10 + ELEMENT.getInstance().CHROMIUM.getProtons() * 35 + + ELEMENT.getInstance().COBALT.getProtons() * 35 + + ELEMENT.getInstance().MANGANESE.getProtons() * 20) / 100, // Protons + (ELEMENT.getInstance().TITANIUM.getNeutrons() * 10 + ELEMENT.getInstance().CHROMIUM.getNeutrons() * 35 + + ELEMENT.getInstance().COBALT.getNeutrons() * 35 + + ELEMENT.getInstance().MANGANESE.getNeutrons() * 20) / 100, // Neutrons + true, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { 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 - new short[]{228, 75, 120, 0}, //Material Colour - 1454, //Melting Point in C - ((ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC()*10)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*30)+(ELEMENT.getInstance().COBALT.getBoilingPointC()*40)+(ELEMENT.getInstance().PHOSPHORUS.getBoilingPointC()*20))/100, //Boiling Point in C - ((ELEMENT.getInstance().MOLYBDENUM.getProtons()*10)+(ELEMENT.getInstance().CHROMIUM.getProtons()*30)+(ELEMENT.getInstance().COBALT.getProtons()*40)+(ELEMENT.getInstance().PHOSPHORUS.getProtons()*20))/100, //Protons - ((ELEMENT.getInstance().MOLYBDENUM.getNeutrons()*10)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*30)+(ELEMENT.getInstance().COBALT.getNeutrons()*40)+(ELEMENT.getInstance().PHOSPHORUS.getNeutrons()*20))/100, //Neutrons - false, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material TALONITE = new Material("Talonite", // Material + // Name + new short[] { + 228, 75, 120, 0 + }, // Material + // Colour + 1454, // Melting + // Point + // in + // C + (ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC() * 10 + + ELEMENT.getInstance().CHROMIUM.getBoilingPointC() * 30 + + ELEMENT.getInstance().COBALT.getBoilingPointC() * 40 + + ELEMENT.getInstance().PHOSPHORUS.getBoilingPointC() * 20) / 100, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().MOLYBDENUM.getProtons() * 10 + ELEMENT.getInstance().CHROMIUM.getProtons() * 30 + + ELEMENT.getInstance().COBALT.getProtons() * 40 + + ELEMENT.getInstance().PHOSPHORUS.getProtons() * 20) / 100, // Protons + (ELEMENT.getInstance().MOLYBDENUM.getNeutrons() * 10 + ELEMENT.getInstance().CHROMIUM.getNeutrons() * 30 + + ELEMENT.getInstance().COBALT.getNeutrons() * 40 + + ELEMENT.getInstance().PHOSPHORUS.getNeutrons() * 20) / 100, // Neutrons + false, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { 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 - new short[]{218, 165, 32, 0}, //Material Colour - 1350, //Melting Point in C - ((ELEMENT.getInstance().IRON.getBoilingPointC()*6)+(ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC()*24)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*5)+(ELEMENT.getInstance().NICKEL.getBoilingPointC()*65))/100, //Boiling Point in C - ((ELEMENT.getInstance().IRON.getProtons()*6)+(ELEMENT.getInstance().MOLYBDENUM.getProtons()*24)+(ELEMENT.getInstance().CHROMIUM.getProtons()*5)+(ELEMENT.getInstance().NICKEL.getProtons()*65))/100, //Protons - ((ELEMENT.getInstance().IRON.getNeutrons()*6)+(ELEMENT.getInstance().MOLYBDENUM.getNeutrons()*24)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*5)+(ELEMENT.getInstance().NICKEL.getNeutrons()*65))/100, //Neutrons - false, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material HASTELLOY_W = new Material("Hastelloy-W", // Material + // Name + new short[] { + 218, 165, 32, 0 + }, // Material + // Colour + 1350, // Melting + // Point + // in + // C + (ELEMENT.getInstance().IRON.getBoilingPointC() * 6 + + ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC() * 24 + + ELEMENT.getInstance().CHROMIUM.getBoilingPointC() * 5 + + ELEMENT.getInstance().NICKEL.getBoilingPointC() * 65) / 100, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().IRON.getProtons() * 6 + ELEMENT.getInstance().MOLYBDENUM.getProtons() * 24 + + ELEMENT.getInstance().CHROMIUM.getProtons() * 5 + ELEMENT.getInstance().NICKEL.getProtons() * 65) + / 100, // Protons + (ELEMENT.getInstance().IRON.getNeutrons() * 6 + ELEMENT.getInstance().MOLYBDENUM.getNeutrons() * 24 + + ELEMENT.getInstance().CHROMIUM.getNeutrons() * 5 + + ELEMENT.getInstance().NICKEL.getNeutrons() * 65) / 100, // Neutrons + false, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { new MaterialStack(ELEMENT.getInstance().IRON, 06), new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 24), new MaterialStack(ELEMENT.getInstance().CHROMIUM, 8), new MaterialStack(ELEMENT.getInstance().NICKEL, 62) }); - /*public static final Material HASTELLOY_X = new Material( - "Hastelloy-X", //Material Name - new short[]{255, 193, 37, 0}, //Material Colour - 1350, //Melting Point in C - ((ELEMENT.getInstance().IRON.getBoilingPoint_C()*18)+(ELEMENT.getInstance().MOLYBDENUM.getBoilingPoint_C()*9)+(ELEMENT.getInstance().CHROMIUM.getBoilingPoint_C()*22)+(ELEMENT.getInstance().NICKEL.getBoilingPoint_C()*51))/100, //Boiling Point in C - ((ELEMENT.getInstance().IRON.getProtons()*18)+(ELEMENT.getInstance().MOLYBDENUM.getProtons()*9)+(ELEMENT.getInstance().CHROMIUM.getProtons()*22)+(ELEMENT.getInstance().NICKEL.getProtons()*51))/100, //Protons - ((ELEMENT.getInstance().IRON.getNeutrons()*18)+(ELEMENT.getInstance().MOLYBDENUM.getNeutrons()*9)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*22)+(ELEMENT.getInstance().NICKEL.getNeutrons()*51))/100, //Neutrons - false, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ - new MaterialStack(ELEMENT.getInstance().IRON, 18), - new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 9), - new MaterialStack(ELEMENT.getInstance().CHROMIUM, 22), - new MaterialStack(ELEMENT.getInstance().NICKEL, 51) - });*/ - - public static final Material HASTELLOY_X = new Material( - "Hastelloy-X", //Material Name - new short[]{255, 193, 37, 0}, //Material Colour - 1350, //Melting Point in C - ((ELEMENT.getInstance().IRON.getBoilingPointC()*18)+(ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC()*9)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*22)+(ELEMENT.getInstance().NICKEL.getBoilingPointC()*51))/100, //Boiling Point in C - ((ELEMENT.getInstance().IRON.getProtons()*18)+(ELEMENT.getInstance().MOLYBDENUM.getProtons()*9)+(ELEMENT.getInstance().CHROMIUM.getProtons()*22)+(ELEMENT.getInstance().NICKEL.getProtons()*51))/100, //Protons - ((ELEMENT.getInstance().IRON.getNeutrons()*18)+(ELEMENT.getInstance().MOLYBDENUM.getNeutrons()*9)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*22)+(ELEMENT.getInstance().NICKEL.getNeutrons()*51))/100, //Neutrons - false, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + /* + * public static final Material HASTELLOY_X = new Material( "Hastelloy-X", + * //Material Name new short[]{255, 193, 37, 0}, //Material Colour 1350, + * //Melting Point in C + * ((ELEMENT.getInstance().IRON.getBoilingPoint_C()*18)+(ELEMENT.getInstance + * ().MOLYBDENUM.getBoilingPoint_C()*9)+(ELEMENT.getInstance().CHROMIUM. + * getBoilingPoint_C()*22)+(ELEMENT.getInstance().NICKEL.getBoilingPoint_C() + * *51))/100, //Boiling Point in C + * ((ELEMENT.getInstance().IRON.getProtons()*18)+(ELEMENT.getInstance(). + * MOLYBDENUM.getProtons()*9)+(ELEMENT.getInstance().CHROMIUM.getProtons()* + * 22)+(ELEMENT.getInstance().NICKEL.getProtons()*51))/100, //Protons + * ((ELEMENT.getInstance().IRON.getNeutrons()*18)+(ELEMENT.getInstance(). + * MOLYBDENUM.getNeutrons()*9)+(ELEMENT.getInstance().CHROMIUM.getNeutrons() + * *22)+(ELEMENT.getInstance().NICKEL.getNeutrons()*51))/100, //Neutrons + * false, //Uses Blast furnace? //Material Stacks with Percentage of + * required elements. new MaterialStack[]{ new + * MaterialStack(ELEMENT.getInstance().IRON, 18), new + * MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 9), new + * MaterialStack(ELEMENT.getInstance().CHROMIUM, 22), new + * MaterialStack(ELEMENT.getInstance().NICKEL, 51) }); + */ + + public static final Material HASTELLOY_X = new Material("Hastelloy-X", // Material + // Name + new short[] { + 255, 193, 37, 0 + }, // Material + // Colour + 1350, // Melting + // Point + // in + // C + (ELEMENT.getInstance().IRON.getBoilingPointC() * 18 + + ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC() * 9 + + ELEMENT.getInstance().CHROMIUM.getBoilingPointC() * 22 + + ELEMENT.getInstance().NICKEL.getBoilingPointC() * 51) / 100, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().IRON.getProtons() * 18 + ELEMENT.getInstance().MOLYBDENUM.getProtons() * 9 + + ELEMENT.getInstance().CHROMIUM.getProtons() * 22 + ELEMENT.getInstance().NICKEL.getProtons() * 51) + / 100, // Protons + (ELEMENT.getInstance().IRON.getNeutrons() * 18 + ELEMENT.getInstance().MOLYBDENUM.getNeutrons() * 9 + + ELEMENT.getInstance().CHROMIUM.getNeutrons() * 22 + + ELEMENT.getInstance().NICKEL.getNeutrons() * 51) / 100, // Neutrons + false, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { new MaterialStack(ELEMENT.getInstance().IRON, 18), new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 9), new MaterialStack(ELEMENT.getInstance().CHROMIUM, 22), new MaterialStack(ELEMENT.getInstance().NICKEL, 51) }); - public static final Material HASTELLOY_N = new Material( - "Hastelloy-N", //Material Name - new short[]{236, 213, 48, 0}, //Material Colour - 1350, //Melting Point in C - ((ELEMENT.getInstance().YTTRIUM.getBoilingPointC()*5)+(ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC()*16)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*7)+(ELEMENT.getInstance().NICKEL.getBoilingPointC()*72))/100, //Boiling Point in C - ((ELEMENT.getInstance().YTTRIUM.getProtons()*5)+(ELEMENT.getInstance().MOLYBDENUM.getProtons()*16)+(ELEMENT.getInstance().CHROMIUM.getProtons()*7)+(ELEMENT.getInstance().NICKEL.getProtons()*72))/100, //Protons - ((ELEMENT.getInstance().YTTRIUM.getNeutrons()*5)+(ELEMENT.getInstance().MOLYBDENUM.getNeutrons()*16)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*7)+(ELEMENT.getInstance().NICKEL.getNeutrons()*72))/100, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material HASTELLOY_N = new Material("Hastelloy-N", // Material + // Name + new short[] { + 236, 213, 48, 0 + }, // Material + // Colour + 1350, // Melting + // Point + // in + // C + (ELEMENT.getInstance().YTTRIUM.getBoilingPointC() * 5 + + ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC() * 16 + + ELEMENT.getInstance().CHROMIUM.getBoilingPointC() * 7 + + ELEMENT.getInstance().NICKEL.getBoilingPointC() * 72) / 100, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().YTTRIUM.getProtons() * 5 + ELEMENT.getInstance().MOLYBDENUM.getProtons() * 16 + + ELEMENT.getInstance().CHROMIUM.getProtons() * 7 + ELEMENT.getInstance().NICKEL.getProtons() * 72) + / 100, // Protons + (ELEMENT.getInstance().YTTRIUM.getNeutrons() * 5 + ELEMENT.getInstance().MOLYBDENUM.getNeutrons() * 16 + + ELEMENT.getInstance().CHROMIUM.getNeutrons() * 7 + + ELEMENT.getInstance().NICKEL.getNeutrons() * 72) / 100, // Neutrons + true, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { new MaterialStack(ELEMENT.getInstance().YTTRIUM, 10), new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 16), new MaterialStack(ELEMENT.getInstance().CHROMIUM, 10), new MaterialStack(ELEMENT.getInstance().NICKEL, 64) }); - public static final Material HASTELLOY_C276 = new Material( - "Hastelloy-C276", //Material Name - new short[]{238, 180, 34, 0}, //Material Colour - 1350, //Melting Point in C - ((ELEMENT.getInstance().COBALT.getBoilingPointC()*2)+(ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC()*16)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*16)+(ELEMENT.getInstance().NICKEL.getBoilingPointC()*66))/100, //Boiling Point in C - ((ELEMENT.getInstance().COBALT.getProtons()*2)+(ELEMENT.getInstance().MOLYBDENUM.getProtons()*16)+(ELEMENT.getInstance().CHROMIUM.getProtons()*16)+(ELEMENT.getInstance().NICKEL.getProtons()*66))/100, //Protons - ((ELEMENT.getInstance().COBALT.getNeutrons()*2)+(ELEMENT.getInstance().MOLYBDENUM.getNeutrons()*16)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*16)+(ELEMENT.getInstance().NICKEL.getNeutrons()*66))/100, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material HASTELLOY_C276 = new Material("Hastelloy-C276", // Material + // Name + new short[] { + 238, 180, 34, 0 + }, // Material + // Colour + 1350, // Melting + // Point + // in + // C + (ELEMENT.getInstance().COBALT.getBoilingPointC() * 2 + + ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC() * 16 + + ELEMENT.getInstance().CHROMIUM.getBoilingPointC() * 16 + + ELEMENT.getInstance().NICKEL.getBoilingPointC() * 66) / 100, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().COBALT.getProtons() * 2 + ELEMENT.getInstance().MOLYBDENUM.getProtons() * 16 + + ELEMENT.getInstance().CHROMIUM.getProtons() * 16 + ELEMENT.getInstance().NICKEL.getProtons() * 66) + / 100, // Protons + (ELEMENT.getInstance().COBALT.getNeutrons() * 2 + ELEMENT.getInstance().MOLYBDENUM.getNeutrons() * 16 + + ELEMENT.getInstance().CHROMIUM.getNeutrons() * 16 + + ELEMENT.getInstance().NICKEL.getNeutrons() * 66) / 100, // Neutrons + true, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { new MaterialStack(ELEMENT.getInstance().COBALT, 02), new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 16), new MaterialStack(ELEMENT.getInstance().CHROMIUM, 16), new MaterialStack(ELEMENT.getInstance().NICKEL, 66) }); - public static final Material INCOLOY_020 = new Material( - "Incoloy-020", //Material Name - new short[]{101, 81, 71, 0}, //Material Colour - 1425, //Melting Point in C - ((ELEMENT.getInstance().IRON.getBoilingPointC()*40)+(ELEMENT.getInstance().COPPER.getBoilingPointC()*4)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*20)+(ELEMENT.getInstance().NICKEL.getBoilingPointC()*36))/100, //Boiling Point in C - ((ELEMENT.getInstance().IRON.getProtons()*40)+(ELEMENT.getInstance().COPPER.getProtons()*4)+(ELEMENT.getInstance().CHROMIUM.getProtons()*20)+(ELEMENT.getInstance().NICKEL.getProtons()*36))/100, //Protons - ((ELEMENT.getInstance().IRON.getNeutrons()*40)+(ELEMENT.getInstance().COPPER.getNeutrons()*4)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*20)+(ELEMENT.getInstance().NICKEL.getNeutrons()*36))/100, //Neutrons - false, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material INCOLOY_020 = new Material("Incoloy-020", // Material + // Name + new short[] { + 101, 81, 71, 0 + }, // Material + // Colour + 1425, // Melting + // Point + // in + // C + (ELEMENT.getInstance().IRON.getBoilingPointC() * 40 + ELEMENT.getInstance().COPPER.getBoilingPointC() * 4 + + ELEMENT.getInstance().CHROMIUM.getBoilingPointC() * 20 + + ELEMENT.getInstance().NICKEL.getBoilingPointC() * 36) / 100, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().IRON.getProtons() * 40 + ELEMENT.getInstance().COPPER.getProtons() * 4 + + ELEMENT.getInstance().CHROMIUM.getProtons() * 20 + ELEMENT.getInstance().NICKEL.getProtons() * 36) + / 100, // Protons + (ELEMENT.getInstance().IRON.getNeutrons() * 40 + ELEMENT.getInstance().COPPER.getNeutrons() * 4 + + ELEMENT.getInstance().CHROMIUM.getNeutrons() * 20 + + ELEMENT.getInstance().NICKEL.getNeutrons() * 36) / 100, // Neutrons + false, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { 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 - new short[]{71, 101, 81, 0}, //Material Colour - 1425, //Melting Point in C - ((ELEMENT.getInstance().IRON.getBoilingPointC()*46)+(ELEMENT.getInstance().COBALT.getBoilingPointC()*18)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*18)+(ELEMENT.getInstance().NICKEL.getBoilingPointC()*18))/100, //Boiling Point in C - ((ELEMENT.getInstance().IRON.getProtons()*46)+(ELEMENT.getInstance().COBALT.getProtons()*18)+(ELEMENT.getInstance().CHROMIUM.getProtons()*18)+(ELEMENT.getInstance().NICKEL.getProtons()*18))/100, //Protons - ((ELEMENT.getInstance().IRON.getNeutrons()*46)+(ELEMENT.getInstance().COBALT.getNeutrons()*18)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*18)+(ELEMENT.getInstance().NICKEL.getNeutrons()*18))/100, //Neutrons - false, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material INCOLOY_DS = new Material("Incoloy-DS", // Material + // Name + new short[] { + 71, 101, 81, 0 + }, // Material + // Colour + 1425, // Melting + // Point + // in + // C + (ELEMENT.getInstance().IRON.getBoilingPointC() * 46 + ELEMENT.getInstance().COBALT.getBoilingPointC() * 18 + + ELEMENT.getInstance().CHROMIUM.getBoilingPointC() * 18 + + ELEMENT.getInstance().NICKEL.getBoilingPointC() * 18) / 100, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().IRON.getProtons() * 46 + ELEMENT.getInstance().COBALT.getProtons() * 18 + + ELEMENT.getInstance().CHROMIUM.getProtons() * 18 + ELEMENT.getInstance().NICKEL.getProtons() * 18) + / 100, // Protons + (ELEMENT.getInstance().IRON.getNeutrons() * 46 + ELEMENT.getInstance().COBALT.getNeutrons() * 18 + + ELEMENT.getInstance().CHROMIUM.getNeutrons() * 18 + + ELEMENT.getInstance().NICKEL.getNeutrons() * 18) / 100, // Neutrons + false, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { 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 - new short[]{81, 71, 101, 0}, //Material Colour - 1425, //Melting Point in C - ((ELEMENT.getInstance().IRON.getBoilingPointC()*75)+(ELEMENT.getInstance().ALUMINIUM.getBoilingPointC()*4)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*20)+(ELEMENT.getInstance().YTTRIUM.getBoilingPointC()*1))/100, //Boiling Point in C - ((ELEMENT.getInstance().IRON.getProtons()*75)+(ELEMENT.getInstance().ALUMINIUM.getProtons()*4)+(ELEMENT.getInstance().CHROMIUM.getProtons()*20)+(ELEMENT.getInstance().YTTRIUM.getProtons()*1))/100, //Protons - ((ELEMENT.getInstance().IRON.getNeutrons()*75)+(ELEMENT.getInstance().ALUMINIUM.getNeutrons()*4)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*20)+(ELEMENT.getInstance().YTTRIUM.getNeutrons()*1))/100, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material INCOLOY_MA956 = new Material("Incoloy-MA956", // Material + // Name + new short[] { + 81, 71, 101, 0 + }, // Material + // Colour + 1425, // Melting + // Point + // in + // C + (ELEMENT.getInstance().IRON.getBoilingPointC() * 75 + ELEMENT.getInstance().ALUMINIUM.getBoilingPointC() * 4 + + ELEMENT.getInstance().CHROMIUM.getBoilingPointC() * 20 + + ELEMENT.getInstance().YTTRIUM.getBoilingPointC() * 1) / 100, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().IRON.getProtons() * 75 + ELEMENT.getInstance().ALUMINIUM.getProtons() * 4 + + ELEMENT.getInstance().CHROMIUM.getProtons() * 20 + ELEMENT.getInstance().YTTRIUM.getProtons() * 1) + / 100, // Protons + (ELEMENT.getInstance().IRON.getNeutrons() * 75 + ELEMENT.getInstance().ALUMINIUM.getNeutrons() * 4 + + ELEMENT.getInstance().CHROMIUM.getNeutrons() * 20 + + ELEMENT.getInstance().YTTRIUM.getNeutrons() * 1) / 100, // Neutrons + true, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { 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 - new short[]{44, 44, 44, 0}, //Material Colour - 3422, //Melting Point in C - ((ELEMENT.getInstance().TUNGSTEN.getBoilingPointC()*5)+(ELEMENT.getInstance().CARBON.getBoilingPointC()*5))/10, //Boiling Point in C - ((ELEMENT.getInstance().TUNGSTEN.getProtons()*5)+(ELEMENT.getInstance().CARBON.getProtons()*5))/10, //Protons - ((ELEMENT.getInstance().TUNGSTEN.getNeutrons()*5)+(ELEMENT.getInstance().CARBON.getNeutrons()*5))/10, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material TUNGSTEN_CARBIDE = new Material("Tungsten Carbide", // Material + // Name + new short[] { + 44, 44, 44, 0 + }, // Material + // Colour + 3422, // Melting + // Point + // in + // C + (ELEMENT.getInstance().TUNGSTEN.getBoilingPointC() * 5 + + ELEMENT.getInstance().CARBON.getBoilingPointC() * 5) / 10, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().TUNGSTEN.getProtons() * 5 + ELEMENT.getInstance().CARBON.getProtons() * 5) / 10, // Protons + (ELEMENT.getInstance().TUNGSTEN.getNeutrons() * 5 + ELEMENT.getInstance().CARBON.getNeutrons() * 5) / 10, // Neutrons + true, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { new MaterialStack(ELEMENT.getInstance().CARBON, 50), new MaterialStack(ELEMENT.getInstance().TUNGSTEN, 50) }); - public static final Material SILICON_CARBIDE = new Material( - "Silicon Carbide", //Material Name - new short[]{40, 48, 36, 0}, //Material Colour - 1414, //Melting Point in C - ((ELEMENT.getInstance().SILICON.getBoilingPointC()*5)+(ELEMENT.getInstance().CARBON.getBoilingPointC()*5))/10, //Boiling Point in C - ((ELEMENT.getInstance().SILICON.getProtons()*5)+(ELEMENT.getInstance().CARBON.getProtons()*5))/10, //Protons - ((ELEMENT.getInstance().SILICON.getNeutrons()*5)+(ELEMENT.getInstance().CARBON.getNeutrons()*5))/10, //Neutrons - false, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material SILICON_CARBIDE = new Material("Silicon Carbide", // Material + // Name + new short[] { + 40, 48, 36, 0 + }, // Material + // Colour + 1414, // Melting + // Point + // in + // C + (ELEMENT.getInstance().SILICON.getBoilingPointC() * 5 + ELEMENT.getInstance().CARBON.getBoilingPointC() * 5) + / 10, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().SILICON.getProtons() * 5 + ELEMENT.getInstance().CARBON.getProtons() * 5) / 10, // Protons + (ELEMENT.getInstance().SILICON.getNeutrons() * 5 + ELEMENT.getInstance().CARBON.getNeutrons() * 5) / 10, // Neutrons + false, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { new MaterialStack(ELEMENT.getInstance().SILICON, 40), new MaterialStack(ELEMENT.getInstance().CARBON, 50), new MaterialStack(ELEMENT.getInstance().OXYGEN, 10) }); - public static final Material TANTALUM_CARBIDE = new Material( - "Tantalum Carbide", //Material Name - new short[]{139, 136, 120, 0}, //Material Colour - 2980, //Melting Point in C - ((ELEMENT.getInstance().TANTALUM.getBoilingPointC()*5)+(ELEMENT.getInstance().CARBON.getBoilingPointC()*5))/10, //Boiling Point in C - ((ELEMENT.getInstance().TANTALUM.getProtons()*5)+(ELEMENT.getInstance().CARBON.getProtons()*5))/10, //Protons - ((ELEMENT.getInstance().TANTALUM.getNeutrons()*5)+(ELEMENT.getInstance().CARBON.getNeutrons()*5))/10, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material TANTALUM_CARBIDE = new Material("Tantalum Carbide", // Material + // Name + new short[] { + 139, 136, 120, 0 + }, // Material + // Colour + 2980, // Melting + // Point + // in + // C + (ELEMENT.getInstance().TANTALUM.getBoilingPointC() * 5 + + ELEMENT.getInstance().CARBON.getBoilingPointC() * 5) / 10, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().TANTALUM.getProtons() * 5 + ELEMENT.getInstance().CARBON.getProtons() * 5) / 10, // Protons + (ELEMENT.getInstance().TANTALUM.getNeutrons() * 5 + ELEMENT.getInstance().CARBON.getNeutrons() * 5) / 10, // Neutrons + true, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { new MaterialStack(ELEMENT.getInstance().TANTALUM, 40), new MaterialStack(ELEMENT.getInstance().CARBON, 50), new MaterialStack(ELEMENT.getInstance().OXYGEN, 10) }); - public static final Material ZIRCONIUM_CARBIDE = new Material( - "Zirconium Carbide", //Material Name - new short[]{222, 202, 180, 0}, //Material Colour - 1855, //Melting Point in C - ((ELEMENT.getInstance().ZIRCONIUM.getBoilingPointC()*5)+(ELEMENT.getInstance().CARBON.getBoilingPointC()*5))/10, //Boiling Point in C - ((ELEMENT.getInstance().ZIRCONIUM.getProtons()*5)+(ELEMENT.getInstance().CARBON.getProtons()*5))/10, //Protons - ((ELEMENT.getInstance().ZIRCONIUM.getNeutrons()*5)+(ELEMENT.getInstance().CARBON.getNeutrons()*5))/10, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material ZIRCONIUM_CARBIDE = new Material("Zirconium Carbide", // Material + // Name + new short[] { + 222, 202, 180, 0 + }, // Material + // Colour + 1855, // Melting + // Point + // in + // C + (ELEMENT.getInstance().ZIRCONIUM.getBoilingPointC() * 5 + + ELEMENT.getInstance().CARBON.getBoilingPointC() * 5) / 10, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().ZIRCONIUM.getProtons() * 5 + ELEMENT.getInstance().CARBON.getProtons() * 5) / 10, // Protons + (ELEMENT.getInstance().ZIRCONIUM.getNeutrons() * 5 + ELEMENT.getInstance().CARBON.getNeutrons() * 5) / 10, // Neutrons + true, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { new MaterialStack(ELEMENT.getInstance().ZIRCONIUM, 40), new MaterialStack(ELEMENT.getInstance().CARBON, 50), new MaterialStack(ELEMENT.getInstance().OXYGEN, 10) }); - public static final Material NIOBIUM_CARBIDE = new Material( - "Niobium Carbide", //Material Name - new short[]{205, 197, 191, 0}, //Material Colour - 2477, //Melting Point in C - ((ELEMENT.getInstance().NIOBIUM.getBoilingPointC()*5)+(ELEMENT.getInstance().CARBON.getBoilingPointC()*5))/10, //Boiling Point in C - ((ELEMENT.getInstance().NIOBIUM.getProtons()*5)+(ELEMENT.getInstance().CARBON.getProtons()*5))/10, //Protons - ((ELEMENT.getInstance().NIOBIUM.getNeutrons()*5)+(ELEMENT.getInstance().CARBON.getNeutrons()*5))/10, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - new MaterialStack[]{ + public static final Material NIOBIUM_CARBIDE = new Material("Niobium Carbide", // Material + // Name + new short[] { + 205, 197, 191, 0 + }, // Material + // Colour + 2477, // Melting + // Point + // in + // C + (ELEMENT.getInstance().NIOBIUM.getBoilingPointC() * 5 + ELEMENT.getInstance().CARBON.getBoilingPointC() * 5) + / 10, // Boiling + // Point + // in + // C + (ELEMENT.getInstance().NIOBIUM.getProtons() * 5 + ELEMENT.getInstance().CARBON.getProtons() * 5) / 10, // Protons + (ELEMENT.getInstance().NIOBIUM.getNeutrons() * 5 + ELEMENT.getInstance().CARBON.getNeutrons() * 5) / 10, // Neutrons + true, // Uses + // Blast + // furnace? + // Material Stacks with Percentage of required elements. + new MaterialStack[] { new MaterialStack(ELEMENT.getInstance().NIOBIUM, 40), new MaterialStack(ELEMENT.getInstance().CARBON, 50), new MaterialStack(ELEMENT.getInstance().OXYGEN, 10) }); - - - public static final Material LEAGRISIUM = new Material( - "Grisium", //Material Name - new short[]{53, 93, 106, 0}, //Material Colour - 9001, //Melting Point in C - 25000, //Boiling Point in C - 96, //Protons - 128, //Neutrons - true, //Uses Blast furnace? - new MaterialStack[]{ + + public static final Material LEAGRISIUM = new Material("Grisium", // Material + // Name + new short[] { + 53, 93, 106, 0 + }, // Material + // Colour + 9001, // Melting + // Point + // in + // C + 25000, // Boiling + // Point + // in + // C + 96, // Protons + 128, // Neutrons + true, // Uses + // Blast + // furnace? + new MaterialStack[] { 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. - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - //Quantum - public static final Material QUANTUM = new Material( - "Quantum", //Material Name - new short[]{128, 128, 255, 50}, //Material Colour - 9999, //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[]{ - new MaterialStack(ALLOY.LEAGRISIUM, 25), - new MaterialStack(ALLOY.ENERGYCRYSTAL, 25), + }); // Material + // Stacks + // with + // Percentage + // of + // required + // elements. + + // Quantum + public static final Material QUANTUM = new Material("Quantum", // Material + // Name + new short[] { + 128, 128, 255, 50 + }, // Material + // Colour + 9999, // 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[] { + new MaterialStack(ALLOY.LEAGRISIUM, 25), new MaterialStack(ALLOY.ENERGYCRYSTAL, 25), new MaterialStack(ALLOY.ZIRCONIUM_CARBIDE, 25), new MaterialStack(ELEMENT.getInstance().MANGANESE, 5), new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 5), @@ -561,7 +1017,5 @@ public final class ALLOY { new MaterialStack(ELEMENT.getInstance().BERYLLIUM, 5), new MaterialStack(ELEMENT.getInstance().BISMUTH, 5) }); - - } diff --git a/src/Java/gtPlusPlus/core/material/ELEMENT.java b/src/Java/gtPlusPlus/core/material/ELEMENT.java index 73d49e2694..a8a474a6c2 100644 --- a/src/Java/gtPlusPlus/core/material/ELEMENT.java +++ b/src/Java/gtPlusPlus/core/material/ELEMENT.java @@ -4,91 +4,102 @@ import gregtech.api.enums.Materials; import gtPlusPlus.core.util.materials.MaterialUtils; public final class ELEMENT { - - private static final ELEMENT thisClass = new ELEMENT(); - - public ELEMENT(){ - - } - - public static ELEMENT getInstance(){ - return thisClass; - } - - //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 = MaterialUtils.generateMaterialFromGtENUM(Materials.Ne); - 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 SILICON = MaterialUtils.generateMaterialFromGtENUM(Materials.Silicon); - 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 = MaterialUtils.generateMaterialFromGtENUM(Materials.Germanium); - public final Material ARSENIC = MaterialUtils.generateMaterialFromGtENUM(Materials.Arsenic); - //public final Material SELENIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Selenium); - //public final Material BROMINE = MaterialUtils.generateMaterialFromGtENUM(Materials.Bromine); - //public final Material KRYPTON = MaterialUtils.generateMaterialFromGtENUM(Materials.Krypton); - public final Material RUBIDIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Rubidium); - public final Material STRONTIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Strontium); - public final Material YTTRIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Yttrium); - public final Material ZIRCONIUM = new Material("Zirconium", 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 TECHNETIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Technetium); - //public final Material RUTHENIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Ruthenium); - //public final Material RHODIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Rhodium); - 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); - - - - + private static final ELEMENT thisClass = new ELEMENT(); + public static ELEMENT getInstance() { + return ELEMENT.thisClass; + } + // 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 = + // MaterialUtils.generateMaterialFromGtENUM(Materials.Ne); + 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 SILICON = MaterialUtils.generateMaterialFromGtENUM(Materials.Silicon); + 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 = + // MaterialUtils.generateMaterialFromGtENUM(Materials.Germanium); + public final Material ARSENIC = MaterialUtils.generateMaterialFromGtENUM(Materials.Arsenic); + // public final Material SELENIUM = + // MaterialUtils.generateMaterialFromGtENUM(Materials.Selenium); + // public final Material BROMINE = + // MaterialUtils.generateMaterialFromGtENUM(Materials.Bromine); + // public final Material KRYPTON = + // MaterialUtils.generateMaterialFromGtENUM(Materials.Krypton); + public final Material RUBIDIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Rubidium); + public final Material STRONTIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Strontium); + public final Material YTTRIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Yttrium); + public final Material ZIRCONIUM = new Material("Zirconium", 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 TECHNETIUM = + // MaterialUtils.generateMaterialFromGtENUM(Materials.Technetium); + // public final Material RUTHENIUM = + // MaterialUtils.generateMaterialFromGtENUM(Materials.Ruthenium); + // public final Material RHODIUM = + // MaterialUtils.generateMaterialFromGtENUM(Materials.Rhodium); + 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); + // Second 50 elements + public final Material TANTALUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Tantalum); - //Second 50 elements - public final Material TANTALUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Tantalum); - public final Material TUNGSTEN = MaterialUtils.generateMaterialFromGtENUM(Materials.Tungsten); - 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 LEAD = MaterialUtils.generateMaterialFromGtENUM(Materials.Lead); - public final Material BISMUTH = MaterialUtils.generateMaterialFromGtENUM(Materials.Bismuth); - public final Material RADON = MaterialUtils.generateMaterialFromGtENUM(Materials.Radon); - public final Material THORIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Thorium); - public final Material URANIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Uranium); - public final Material PLUTONIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Plutonium); - public final Material URANIUM233 = new Material("Uranium-233", new short[]{73, 220, 83, 0}, 1132, 4131, 92, 141, false, MaterialUtils.superscript("233U"), 2);//Not a GT Inherited Material + public final Material TUNGSTEN = MaterialUtils.generateMaterialFromGtENUM(Materials.Tungsten); + 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 LEAD = MaterialUtils.generateMaterialFromGtENUM(Materials.Lead); + public final Material BISMUTH = MaterialUtils.generateMaterialFromGtENUM(Materials.Bismuth); + public final Material RADON = MaterialUtils.generateMaterialFromGtENUM(Materials.Radon); + public final Material THORIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Thorium); + public final Material URANIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Uranium); + public final Material PLUTONIUM = MaterialUtils.generateMaterialFromGtENUM(Materials.Plutonium); + public final Material URANIUM233 = new Material("Uranium-233", new short[] { + 73, 220, 83, 0 + }, 1132, 4131, 92, 141, false, MaterialUtils.superscript("233U"), 2); // Not + // a + // GT + // Inherited + // Material + public ELEMENT() { + } } diff --git a/src/Java/gtPlusPlus/core/material/Material.java b/src/Java/gtPlusPlus/core/material/Material.java index 534b2bc914..20ffd9cb6b 100644 --- a/src/Java/gtPlusPlus/core/material/Material.java +++ b/src/Java/gtPlusPlus/core/material/Material.java @@ -1,7 +1,5 @@ package gtPlusPlus.core.material; -import static gregtech.api.enums.GT_Values.M; - import java.util.ArrayList; import gregtech.api.enums.*; @@ -18,63 +16,76 @@ import net.minecraftforge.fluids.FluidStack; public class Material { - private final String unlocalizedName; - private final String localizedName; - - private final Fluid vMoltenFluid; - - protected Object dataVar; - - private ArrayList<MaterialStack> vMaterialInput = new ArrayList<MaterialStack>(); - public final long[] vSmallestRatio; - - private final short[] RGBA; - - private final boolean usesBlastFurnace; - public final boolean isRadioactive; - public final byte vRadioationLevel; - - private final int meltingPointK; - private final int boilingPointK; - private final int meltingPointC; - private final int boilingPointC; - private final long vProtons; - private final long vNeutrons; - private final long vMass; - public final int smallestStackSizeWhenProcessing; //Add a check for <=0 || > 64 - public final int vTier; - public final int vVoltageMultiplier; - public final String vChemicalFormula; - public final String vChemicalSymbol; - - public Material(final String materialName, final short[] rgba, final int meltingPoint, final int boilingPoint, final long protons, final long neutrons, final boolean blastFurnace, final MaterialStack... inputs){ + private final String unlocalizedName; + private final String localizedName; + + private final Fluid vMoltenFluid; + + protected Object dataVar; + + private ArrayList<MaterialStack> vMaterialInput = new ArrayList<MaterialStack>(); + public final long[] vSmallestRatio; + + private final short[] RGBA; + + private final boolean usesBlastFurnace; + public final boolean isRadioactive; + public final byte vRadioationLevel; + + private final int meltingPointK; + private final int boilingPointK; + private final int meltingPointC; + private final int boilingPointC; + private final long vProtons; + private final long vNeutrons; + private final long vMass; + public final int smallestStackSizeWhenProcessing; // Add + // a + // check + // for + // <=0 + // || + // > + // 64 + public final int vTier; + public final int vVoltageMultiplier; + public final String vChemicalFormula; + public final String vChemicalSymbol; + + public Material(final String materialName, final short[] rgba, final int meltingPoint, final int boilingPoint, + final long protons, final long neutrons, final boolean blastFurnace, final int radiationLevel, + final MaterialStack... inputs) { + this(materialName, rgba, meltingPoint, boilingPoint, protons, neutrons, blastFurnace, "", radiationLevel, + inputs); + } + + public Material(final String materialName, final short[] rgba, final int meltingPoint, final int boilingPoint, + final long protons, final long neutrons, final boolean blastFurnace, final MaterialStack... inputs) { this(materialName, rgba, meltingPoint, boilingPoint, protons, neutrons, blastFurnace, "", 0, inputs); } - public Material(final String materialName, final short[] rgba, final int meltingPoint, final int boilingPoint, final long protons, final long neutrons, final boolean blastFurnace, final int radiationLevel, MaterialStack... inputs){ - this(materialName, rgba, meltingPoint, boilingPoint, protons, neutrons, blastFurnace, "", radiationLevel, inputs); - } - - public Material(final String materialName, final short[] rgba, final int meltingPoint, final int boilingPoint, final long protons, final long neutrons, final boolean blastFurnace, final String chemicalSymbol, final int radiationLevel, final MaterialStack... inputs){ + public Material(final String materialName, final short[] rgba, final int meltingPoint, final int boilingPoint, + final long protons, final long neutrons, final boolean blastFurnace, final String chemicalSymbol, + final int radiationLevel, final MaterialStack... inputs) { this.unlocalizedName = Utils.sanitizeString(materialName); this.localizedName = materialName; this.RGBA = rgba; this.meltingPointC = meltingPoint; - if (boilingPoint != 0){ + if (boilingPoint != 0) { this.boilingPointC = boilingPoint; } else { - this.boilingPointC = meltingPoint*4; + this.boilingPointC = meltingPoint * 4; } - this.meltingPointK = (int) MathUtils.celsiusToKelvin(meltingPointC); - this.boilingPointK = (int) MathUtils.celsiusToKelvin(boilingPointC); + this.meltingPointK = (int) MathUtils.celsiusToKelvin(this.meltingPointC); + this.boilingPointK = (int) MathUtils.celsiusToKelvin(this.boilingPointC); this.vProtons = protons; this.vNeutrons = neutrons; - this.vMass = getMass(); + this.vMass = this.getMass(); - //Sets the Rad level - if (radiationLevel != 0){ + // Sets the Rad level + if (radiationLevel != 0) { this.isRadioactive = true; this.vRadioationLevel = (byte) radiationLevel; } @@ -83,339 +94,384 @@ public class Material { this.vRadioationLevel = (byte) radiationLevel; } - //Sets the materials 'tier'. Will probably replace this logic. + // Sets the materials 'tier'. Will probably replace this logic. this.vTier = MaterialUtils.getTierOfMaterial((int) MathUtils.celsiusToKelvin(meltingPoint)); this.usesBlastFurnace = blastFurnace; this.vVoltageMultiplier = this.getMeltingPointK() >= 2800 ? 64 : 16; - if (inputs == null){ - this.vMaterialInput = null; + if (inputs == null) { + this.vMaterialInput = null; } else { - if (inputs.length != 0){ - for (int i=0; i < inputs.length; i++){ - if (inputs[i] != null){ + if (inputs.length != 0) { + for (int i = 0; i < inputs.length; i++) { + if (inputs[i] != null) { this.vMaterialInput.add(i, inputs[i]); } } } } - this.vSmallestRatio = getSmallestRatio(vMaterialInput); + this.vSmallestRatio = this.getSmallestRatio(this.vMaterialInput); int tempSmallestSize = 0; - if (vSmallestRatio != null){ - for (int v=0;v<this.vSmallestRatio.length;v++){ - tempSmallestSize=(int) (tempSmallestSize+vSmallestRatio[v]); + if (this.vSmallestRatio != null) { + for (int v = 0; v < this.vSmallestRatio.length; v++) { + tempSmallestSize = (int) (tempSmallestSize + this.vSmallestRatio[v]); } - this.smallestStackSizeWhenProcessing = tempSmallestSize; //Valid stacksizes + this.smallestStackSizeWhenProcessing = tempSmallestSize; // Valid + // stacksizes } else { - this.smallestStackSizeWhenProcessing = 1; //Valid stacksizes + this.smallestStackSizeWhenProcessing = 1; // Valid stacksizes } - - //Makes a Fancy Chemical Tooltip + // Makes a Fancy Chemical Tooltip this.vChemicalSymbol = chemicalSymbol; - if (vMaterialInput != null){ - this.vChemicalFormula = getToolTip(chemicalSymbol, OrePrefixes.dust.mMaterialAmount / M, true); + if (this.vMaterialInput != null) { + this.vChemicalFormula = this.getToolTip(chemicalSymbol, OrePrefixes.dust.mMaterialAmount / GT_Values.M, + true); } - else if (!this.vChemicalSymbol.equals("")){ + else if (!this.vChemicalSymbol.equals("")) { Utils.LOG_WARNING("materialInput is null, using a valid chemical symbol."); this.vChemicalFormula = this.vChemicalSymbol; } - else{ + else { Utils.LOG_WARNING("MaterialInput == null && chemicalSymbol probably equals nothing"); this.vChemicalFormula = "??"; } - Materials isValid = Materials.get(getLocalizedName()); - if (isValid == Materials._NULL){ - this.vMoltenFluid = generateFluid(); + final Materials isValid = Materials.get(this.getLocalizedName()); + if (isValid == Materials._NULL) { + this.vMoltenFluid = this.generateFluid(); } else { - if (isValid.mFluid != null){ + if (isValid.mFluid != null) { this.vMoltenFluid = isValid.mFluid; } - else if (isValid.mGas != null){ + else if (isValid.mGas != null) { this.vMoltenFluid = isValid.mGas; } - else if (isValid.mPlasma != null){ + else if (isValid.mPlasma != null) { this.vMoltenFluid = isValid.mPlasma; } else { - this.vMoltenFluid = generateFluid(); + this.vMoltenFluid = this.generateFluid(); } } - //dataVar = MathUtils.generateSingularRandomHexValue(); + // dataVar = MathUtils.generateSingularRandomHexValue(); String ratio = ""; - if (vSmallestRatio != null) - for (int hu=0;hu<vSmallestRatio.length;hu++){ - if (ratio.equals("")){ - ratio = String.valueOf(vSmallestRatio[hu]); + if (this.vSmallestRatio != null) { + for (int hu = 0; hu < this.vSmallestRatio.length; hu++) { + if (ratio.equals("")) { + ratio = String.valueOf(this.vSmallestRatio[hu]); } else { - ratio = ratio + ":" +vSmallestRatio[hu]; - } + ratio = ratio + ":" + this.vSmallestRatio[hu]; + } } + } - Utils.LOG_INFO("Creating a Material instance for "+materialName); - Utils.LOG_INFO("Formula: "+vChemicalFormula + " Smallest Stack: "+smallestStackSizeWhenProcessing+" Smallest Ratio:"+ratio); - Utils.LOG_INFO("Protons: "+vProtons); - Utils.LOG_INFO("Neutrons: "+vNeutrons); - Utils.LOG_INFO("Mass: "+vMass+"/units"); - Utils.LOG_INFO("Melting Point: "+meltingPointC+"C."); - Utils.LOG_INFO("Boiling Point: "+boilingPointC+"C."); + Utils.LOG_INFO("Creating a Material instance for " + materialName); + Utils.LOG_INFO("Formula: " + this.vChemicalFormula + " Smallest Stack: " + this.smallestStackSizeWhenProcessing + + " Smallest Ratio:" + ratio); + Utils.LOG_INFO("Protons: " + this.vProtons); + Utils.LOG_INFO("Neutrons: " + this.vNeutrons); + Utils.LOG_INFO("Mass: " + this.vMass + "/units"); + Utils.LOG_INFO("Melting Point: " + this.meltingPointC + "C."); + Utils.LOG_INFO("Boiling Point: " + this.boilingPointC + "C."); } - final public String getLocalizedName(){ - return localizedName; - } + final Fluid generateFluid() { + if (Materials.get(this.localizedName).mFluid == null) { + Utils.LOG_WARNING("Generating our own fluid."); - final public String getUnlocalizedName(){ - return unlocalizedName; + // Generate a Cell if we need to + if (ItemUtils.getItemStackOfAmountFromOreDictNoBroken("cell" + this.getUnlocalizedName(), 1) == null) { + @SuppressWarnings("unused") + final Item temp = new BaseItemCell(this); + } + return FluidUtils.addGTFluid(this.getUnlocalizedName(), "Molten " + this.getLocalizedName(), this.RGBA, 4, + this.getMeltingPointK(), + ItemUtils.getItemStackOfAmountFromOreDictNoBroken("cell" + this.getUnlocalizedName(), 1), + ItemList.Cell_Empty.get(1L, new Object[0]), 1000); + } + Utils.LOG_WARNING("Getting the fluid from a GT material instead."); + return Materials.get(this.localizedName).mFluid; } - final public short[] getRGBA(){ - return this.RGBA; + final public int getBoilingPointC() { + return this.boilingPointC; } - final public int getRgbAsHex(){ - - int returnValue = Utils.rgbtoHexValue(RGBA[0], RGBA[1], RGBA[2]); - if (returnValue == 0){ - return (int) dataVar; - } - return Utils.rgbtoHexValue(RGBA[0], RGBA[1], RGBA[2]); + final public int getBoilingPointK() { + return this.boilingPointK; } - final public long getProtons() { - return vProtons; + final public ItemStack getBolt(final int stacksize) { + return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("bolt" + this.unlocalizedName, stacksize); } - final public long getNeutrons() { - return vNeutrons; + final public ArrayList<MaterialStack> getComposites() { + return this.vMaterialInput; } - final public long getMass() { - return vProtons + vNeutrons; + final public ItemStack getDust(final int stacksize) { + return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("dust" + this.unlocalizedName, stacksize); } - final public int getMeltingPointC() { - return meltingPointC; - } + final public FluidStack getFluid(final int fluidAmount) { + Utils.LOG_WARNING("Attempting to get " + fluidAmount + "L of " + this.vMoltenFluid.getName()); - final public int getBoilingPointC() { - return boilingPointC; - } + final FluidStack moltenFluid = new FluidStack(this.vMoltenFluid, fluidAmount); - final public int getMeltingPointK() { - return meltingPointK; - } + Utils.LOG_WARNING("Info: " + moltenFluid.getFluid().getName() + " Info: " + moltenFluid.amount + " Info: " + + moltenFluid.getFluidID()); - final public int getBoilingPointK() { - return boilingPointK; + // FluidStack moltenFluid = + // FluidUtils.getFluidStack(this.vMoltenFluid.getName(), fluidAmount); + /* + * boolean isNull = (moltenFluid == null); if (isNull) + * Utils.LOG_WARNING("Did not obtain fluid."); else Utils.LOG_WARNING( + * "Found fluid."); if (isNull){ return null; } + */ + return moltenFluid; } - final public boolean requiresBlastFurnace(){ - return usesBlastFurnace; + final public ItemStack getFrameBox(final int stacksize) { + return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("frameGt" + this.unlocalizedName, stacksize); } - final public ItemStack getDust(int stacksize){ - return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("dust"+unlocalizedName, stacksize); + final public ItemStack getGear(final int stacksize) { + return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("gear" + this.unlocalizedName, stacksize); } - final public ItemStack getSmallDust(int stacksize){ - return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("dustSmall"+unlocalizedName, stacksize); + final public ItemStack getIngot(final int stacksize) { + return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("ingot" + this.unlocalizedName, stacksize); } - final public ItemStack getTinyDust(int stacksize){ - return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("dustTiny"+unlocalizedName, stacksize); + final public String getLocalizedName() { + return this.localizedName; } - final public ItemStack[] getValidInputStacks(){ - return ItemUtils.validItemsForOreDict(unlocalizedName); + final public ItemStack getLongRod(final int stacksize) { + return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("stickLong" + this.unlocalizedName, stacksize); } - final public ItemStack getIngot(int stacksize){ - return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("ingot"+unlocalizedName, stacksize); + final public long getMass() { + return this.vProtons + this.vNeutrons; + } + + final public ItemStack[] getMaterialComposites() { + // Utils.LOG_WARNING("Something requested the materials needed for + // "+localizedName); + if (this.vMaterialInput != null) { + if (!this.vMaterialInput.isEmpty()) { + final ItemStack[] temp = new ItemStack[this.vMaterialInput.size()]; + for (int i = 0; i < this.vMaterialInput.size(); i++) { + // Utils.LOG_WARNING("i:"+i); + ItemStack testNull = null; + try { + testNull = this.vMaterialInput.get(i).getDustStack(); + } + catch (final Throwable r) { + Utils.LOG_WARNING("Failed gathering material stack for " + this.localizedName + "."); + Utils.LOG_WARNING("What Failed: Length:" + this.vMaterialInput.size() + " current:" + i); + } + try { + if (testNull != null) { + // Utils.LOG_WARNING("not null"); + temp[i] = this.vMaterialInput.get(i).getDustStack(); + } + } + catch (final Throwable r) { + Utils.LOG_WARNING("Failed setting slot " + i + ", using " + this.localizedName); + } + } + return temp; + } + } + return new ItemStack[] {}; } - final public ItemStack getPlate(int stacksize){ - return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("plate"+unlocalizedName, stacksize); + final public int[] getMaterialCompositeStackSizes() { + if (!this.vMaterialInput.isEmpty()) { + final int[] temp = new int[this.vMaterialInput.size()]; + for (int i = 0; i < this.vMaterialInput.size(); i++) { + if (this.vMaterialInput.get(i) != null) { + temp[i] = this.vMaterialInput.get(i).getDustStack().stackSize; + } + else { + temp[i] = 0; + } + } + return temp; + } + return new int[] {}; } - final public ItemStack getPlateDouble(int stacksize){ - return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("plateDouble"+unlocalizedName, stacksize); + final public int getMeltingPointC() { + return this.meltingPointC; } - final public ItemStack getGear(int stacksize){ - return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("gear"+unlocalizedName, stacksize); + final public int getMeltingPointK() { + return this.meltingPointK; } - final public ItemStack getRod(int stacksize){ - return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("stick"+unlocalizedName, stacksize); + final public long getNeutrons() { + return this.vNeutrons; } - final public ItemStack getLongRod(int stacksize){ - return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("stickLong"+unlocalizedName, stacksize); + final public ItemStack getPlate(final int stacksize) { + return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("plate" + this.unlocalizedName, stacksize); } - final public ItemStack getBolt(int stacksize){ - return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("bolt"+unlocalizedName, stacksize); + final public ItemStack getPlateDouble(final int stacksize) { + return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("plateDouble" + this.unlocalizedName, stacksize); } - final public ItemStack getScrew(int stacksize){ - return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("screw"+unlocalizedName, stacksize); + final public long getProtons() { + return this.vProtons; } - final public ItemStack getRing(int stacksize){ - return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("ring"+unlocalizedName, stacksize); + final public short[] getRGBA() { + return this.RGBA; } - final public ItemStack getRotor(int stacksize){ - return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("rotor"+unlocalizedName, stacksize); - } + final public int getRgbAsHex() { - final public ItemStack getFrameBox(int stacksize){ - return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("frameGt"+unlocalizedName, stacksize); + final int returnValue = Utils.rgbtoHexValue(this.RGBA[0], this.RGBA[1], this.RGBA[2]); + if (returnValue == 0) { + return (int) this.dataVar; + } + return Utils.rgbtoHexValue(this.RGBA[0], this.RGBA[1], this.RGBA[2]); } - final public ItemStack[] getMaterialComposites(){ - //Utils.LOG_WARNING("Something requested the materials needed for "+localizedName); - if (vMaterialInput != null){ - if (!vMaterialInput.isEmpty()){ - ItemStack[] temp = new ItemStack[vMaterialInput.size()]; - for (int i=0;i<vMaterialInput.size();i++){ - //Utils.LOG_WARNING("i:"+i); - ItemStack testNull = null; - try { - testNull = vMaterialInput.get(i).getDustStack(); - } catch (Throwable r){ - Utils.LOG_WARNING("Failed gathering material stack for "+localizedName+"."); - Utils.LOG_WARNING("What Failed: Length:"+vMaterialInput.size()+" current:"+i); - } - try { - if (testNull != null){ - //Utils.LOG_WARNING("not null"); - temp[i] = vMaterialInput.get(i).getDustStack(); - } - } catch (Throwable r){ - Utils.LOG_WARNING("Failed setting slot "+i+", using "+localizedName); - } - } - return temp; - } + final public ItemStack getRing(final int stacksize) { + return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("ring" + this.unlocalizedName, stacksize); } - return new ItemStack[]{}; + + final public ItemStack getRod(final int stacksize) { + return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("stick" + this.unlocalizedName, stacksize); } - final public ArrayList<MaterialStack> getComposites(){ - return this.vMaterialInput; + final public ItemStack getRotor(final int stacksize) { + return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("rotor" + this.unlocalizedName, stacksize); } - final public int[] getMaterialCompositeStackSizes(){ - if (!vMaterialInput.isEmpty()){ - int[] temp = new int[vMaterialInput.size()]; - for (int i=0;i<vMaterialInput.size();i++){ - if (vMaterialInput.get(i) != null) - temp[i] = vMaterialInput.get(i).getDustStack().stackSize; - else - temp[i]=0; - } - return temp; - } - return new int[]{}; + final public ItemStack getScrew(final int stacksize) { + return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("screw" + this.unlocalizedName, stacksize); } + final public ItemStack getSmallDust(final int stacksize) { + return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("dustSmall" + this.unlocalizedName, stacksize); + } @SuppressWarnings("static-method") - final public long[] getSmallestRatio(ArrayList<MaterialStack> tempInput){ - if (tempInput != null){ - if (!tempInput.isEmpty()){ - Utils.LOG_WARNING("length: "+tempInput.size()); - Utils.LOG_WARNING("(inputs != null): "+(tempInput != null)); - //Utils.LOG_WARNING("length: "+inputs.length); - long[] tempRatio = new long[tempInput.size()]; - for (int x=0;x<tempInput.size();x++){ - //tempPercentage = tempPercentage+inputs[x].percentageToUse; - //this.mMaterialList.add(inputs[x]); - if (tempInput.get(x) != null){ - tempRatio[x] = tempInput.get(x).getPartsPerOneHundred(); + final public long[] getSmallestRatio(final ArrayList<MaterialStack> tempInput) { + if (tempInput != null) { + if (!tempInput.isEmpty()) { + Utils.LOG_WARNING("length: " + tempInput.size()); + Utils.LOG_WARNING("(inputs != null): " + (tempInput != null)); + // Utils.LOG_WARNING("length: "+inputs.length); + final long[] tempRatio = new long[tempInput.size()]; + for (int x = 0; x < tempInput.size(); x++) { + // tempPercentage = + // tempPercentage+inputs[x].percentageToUse; + // this.mMaterialList.add(inputs[x]); + if (tempInput.get(x) != null) { + tempRatio[x] = tempInput.get(x).getPartsPerOneHundred(); } } - long[] smallestRatio = MathUtils.simplifyNumbersToSmallestForm(tempRatio); + final long[] smallestRatio = MathUtils.simplifyNumbersToSmallestForm(tempRatio); - if (smallestRatio.length > 0){ + if (smallestRatio.length > 0) { String tempRatioStringThing1 = ""; - for (int r=0;r<tempRatio.length;r++){ - tempRatioStringThing1 = tempRatioStringThing1 + tempRatio[r] +" : "; + for (int r = 0; r < tempRatio.length; r++) { + tempRatioStringThing1 = tempRatioStringThing1 + tempRatio[r] + " : "; } - Utils.LOG_WARNING("Default Ratio: "+tempRatioStringThing1); + Utils.LOG_WARNING("Default Ratio: " + tempRatioStringThing1); String tempRatioStringThing = ""; int tempSmallestCraftingUseSize = 0; - for (int r=0;r<smallestRatio.length;r++){ - tempRatioStringThing = tempRatioStringThing + smallestRatio[r] +" : "; + for (int r = 0; r < smallestRatio.length; r++) { + tempRatioStringThing = tempRatioStringThing + smallestRatio[r] + " : "; tempSmallestCraftingUseSize = (int) (tempSmallestCraftingUseSize + smallestRatio[r]); } - //this.smallestStackSizeWhenProcessing = tempSmallestCraftingUseSize; - Utils.LOG_WARNING("Smallest Ratio: "+tempRatioStringThing); + // this.smallestStackSizeWhenProcessing = + // tempSmallestCraftingUseSize; + Utils.LOG_WARNING("Smallest Ratio: " + tempRatioStringThing); return smallestRatio; } - } + } } return null; } + final public ItemStack getTinyDust(final int stacksize) { + return ItemUtils.getItemStackOfAmountFromOreDictNoBroken("dustTiny" + this.unlocalizedName, stacksize); + } + @SuppressWarnings("unused") - final String getToolTip(String chemSymbol, long aMultiplier, boolean aShowQuestionMarks) { - if (!aShowQuestionMarks && (vChemicalFormula.equals("?")||vChemicalFormula.equals("??"))) return ""; - Utils.LOG_WARNING("===============| Calculating Atomic Formula for "+this.localizedName+" |==============="); - if (!chemSymbol.equals("")) + final String getToolTip(final String chemSymbol, final long aMultiplier, final boolean aShowQuestionMarks) { + if (!aShowQuestionMarks && (this.vChemicalFormula.equals("?") || this.vChemicalFormula.equals("??"))) { + return ""; + } + Utils.LOG_WARNING( + "===============| Calculating Atomic Formula for " + this.localizedName + " |==============="); + if (!chemSymbol.equals("")) { return chemSymbol; - ArrayList<MaterialStack> tempInput = vMaterialInput; - if (tempInput != null){ - if (!tempInput.isEmpty()){ + } + final ArrayList<MaterialStack> tempInput = this.vMaterialInput; + if (tempInput != null) { + if (!tempInput.isEmpty()) { String dummyFormula = ""; - long[] dummyFormulaArray = getSmallestRatio(tempInput); - if (dummyFormulaArray != null){ - if (dummyFormulaArray.length >= 1){ - for (int e=0;e<tempInput.size();e++){ - if (tempInput.get(e) != null){ - if (tempInput.get(e).getStackMaterial() != null){ - if (!tempInput.get(e).getStackMaterial().vChemicalSymbol.equals("??")){ - if (dummyFormulaArray[e] > 1){ - - if (tempInput.get(e).getStackMaterial().vChemicalFormula.length() > 3){ - dummyFormula = dummyFormula + "(" + tempInput.get(e).getStackMaterial().vChemicalFormula + ")" + dummyFormulaArray[e]; + final long[] dummyFormulaArray = this.getSmallestRatio(tempInput); + if (dummyFormulaArray != null) { + if (dummyFormulaArray.length >= 1) { + for (int e = 0; e < tempInput.size(); e++) { + if (tempInput.get(e) != null) { + if (tempInput.get(e).getStackMaterial() != null) { + if (!tempInput.get(e).getStackMaterial().vChemicalSymbol.equals("??")) { + if (dummyFormulaArray[e] > 1) { + + if (tempInput.get(e).getStackMaterial().vChemicalFormula.length() > 3) { + dummyFormula = dummyFormula + "(" + + tempInput.get(e).getStackMaterial().vChemicalFormula + ")" + + dummyFormulaArray[e]; } else { - dummyFormula = dummyFormula + tempInput.get(e).getStackMaterial().vChemicalFormula + dummyFormulaArray[e]; + dummyFormula = dummyFormula + + tempInput.get(e).getStackMaterial().vChemicalFormula + + dummyFormulaArray[e]; } } - else if (dummyFormulaArray[e] == 1){ - if (tempInput.get(e).getStackMaterial().vChemicalFormula.length() > 3){ - dummyFormula = dummyFormula + "(" +tempInput.get(e).getStackMaterial().vChemicalFormula + ")"; + else if (dummyFormulaArray[e] == 1) { + if (tempInput.get(e).getStackMaterial().vChemicalFormula.length() > 3) { + dummyFormula = dummyFormula + "(" + + tempInput.get(e).getStackMaterial().vChemicalFormula + ")"; } else { - dummyFormula = dummyFormula +tempInput.get(e).getStackMaterial().vChemicalFormula; + dummyFormula = dummyFormula + + tempInput.get(e).getStackMaterial().vChemicalFormula; } } } - else + else { dummyFormula = dummyFormula + "??"; + } } - else + else { dummyFormula = dummyFormula + "▓▓"; + } } } return MaterialUtils.subscript(dummyFormula); - //return dummyFormula; + // return dummyFormula; } Utils.LOG_WARNING("dummyFormulaArray <= 0"); } @@ -428,74 +484,16 @@ public class Material { } - final Fluid generateFluid(){ - if (Materials.get(localizedName).mFluid == null){ - Utils.LOG_WARNING("Generating our own fluid."); - - //Generate a Cell if we need to - if (ItemUtils.getItemStackOfAmountFromOreDictNoBroken("cell"+getUnlocalizedName(), 1) == null){ - @SuppressWarnings("unused") - Item temp = new BaseItemCell(this); - } - return FluidUtils.addGTFluid( - this.getUnlocalizedName(), - "Molten "+this.getLocalizedName(), - this.RGBA, - 4, - this.getMeltingPointK(), - ItemUtils.getItemStackOfAmountFromOreDictNoBroken("cell"+getUnlocalizedName(), 1), - ItemList.Cell_Empty.get(1L, new Object[0]), - 1000); - } - Utils.LOG_WARNING("Getting the fluid from a GT material instead."); - return Materials.get(localizedName).mFluid; + final public String getUnlocalizedName() { + return this.unlocalizedName; } - final public FluidStack getFluid(int fluidAmount) { - Utils.LOG_WARNING("Attempting to get "+fluidAmount+"L of "+this.vMoltenFluid.getName()); - - FluidStack moltenFluid = new FluidStack(this.vMoltenFluid, fluidAmount); - - Utils.LOG_WARNING("Info: "+moltenFluid.getFluid().getName()+" Info: "+moltenFluid.amount+" Info: "+moltenFluid.getFluidID()); - - //FluidStack moltenFluid = FluidUtils.getFluidStack(this.vMoltenFluid.getName(), fluidAmount); - /*boolean isNull = (moltenFluid == null); - if (isNull) Utils.LOG_WARNING("Did not obtain fluid."); - else Utils.LOG_WARNING("Found fluid."); - if (isNull){ - return null; - }*/ - return moltenFluid; + final public ItemStack[] getValidInputStacks() { + return ItemUtils.validItemsForOreDict(this.unlocalizedName); } - - - - - - - - - - - - - - - - - - - - - - - - - - - - - + final public boolean requiresBlastFurnace() { + return this.usesBlastFurnace; + } } diff --git a/src/Java/gtPlusPlus/core/material/MaterialGenerator.java b/src/Java/gtPlusPlus/core/material/MaterialGenerator.java index eb34765026..472acd5abe 100644 --- a/src/Java/gtPlusPlus/core/material/MaterialGenerator.java +++ b/src/Java/gtPlusPlus/core/material/MaterialGenerator.java @@ -21,54 +21,61 @@ import gtPlusPlus.xmod.gregtech.loaders.*; import net.minecraft.block.Block; import net.minecraft.item.Item; -public class MaterialGenerator { +public class MaterialGenerator { @SuppressWarnings("unused") - public static void generate(final Material matInfo){ - String unlocalizedName = matInfo.getUnlocalizedName(); - String materialName = matInfo.getLocalizedName(); - short[] C = matInfo.getRGBA(); - int Colour = Utils.rgbtoHexValue(C[0], C[1], C[2]); - boolean hotIngot = matInfo.requiresBlastFurnace(); - int materialTier = matInfo.vTier; //TODO - - if (materialTier > 10 || materialTier <= 0){ + public static void generate(final Material matInfo) { + final String unlocalizedName = matInfo.getUnlocalizedName(); + final String materialName = matInfo.getLocalizedName(); + final short[] C = matInfo.getRGBA(); + final int Colour = Utils.rgbtoHexValue(C[0], C[1], C[2]); + final boolean hotIngot = matInfo.requiresBlastFurnace(); + int materialTier = matInfo.vTier; // TODO + + if (materialTier > 10 || materialTier <= 0) { materialTier = 2; - } - + } + int sRadiation = 0; - if (ItemUtils.isRadioactive(materialName)){ + if (ItemUtils.isRadioactive(materialName)) { sRadiation = ItemUtils.getRadioactivityLevel(materialName); } - - if (sRadiation >= 1){ + + if (sRadiation >= 1) { Item temp; Block tempBlock; - tempBlock = new BlockBaseModular(unlocalizedName, materialName,BlockTypes.STANDARD, Colour); - temp = new BaseItemIngot("itemIngot"+unlocalizedName, materialName, Colour, sRadiation); - - temp = new BaseItemDust("itemDust"+unlocalizedName, materialName, matInfo, Colour, "Dust", materialTier, sRadiation); - temp = new BaseItemDust("itemDustTiny"+unlocalizedName, materialName, matInfo, Colour, "Tiny", materialTier, sRadiation); - temp = new BaseItemDust("itemDustSmall"+unlocalizedName, materialName, matInfo, Colour, "Small", materialTier, sRadiation); + tempBlock = new BlockBaseModular(unlocalizedName, materialName, BlockTypes.STANDARD, Colour); + temp = new BaseItemIngot("itemIngot" + unlocalizedName, materialName, Colour, sRadiation); + + temp = new BaseItemDust("itemDust" + unlocalizedName, materialName, matInfo, Colour, "Dust", materialTier, + sRadiation); + temp = new BaseItemDust("itemDustTiny" + unlocalizedName, materialName, matInfo, Colour, "Tiny", + materialTier, sRadiation); + temp = new BaseItemDust("itemDustSmall" + unlocalizedName, materialName, matInfo, Colour, "Small", + materialTier, sRadiation); temp = new BaseItemNugget(matInfo); temp = new BaseItemPlate(matInfo); temp = new BaseItemRod(matInfo); temp = new BaseItemRodLong(matInfo); } - + else { Item temp; Block tempBlock; - tempBlock = new BlockBaseModular(unlocalizedName, materialName,BlockTypes.STANDARD, Colour); - tempBlock = new BlockBaseModular(unlocalizedName, materialName,BlockTypes.FRAME, Colour); - temp = new BaseItemIngot("itemIngot"+unlocalizedName, materialName, Colour, sRadiation); - if (hotIngot){ - Item tempIngot = temp; - temp = new BaseItemIngotHot("itemHotIngot"+unlocalizedName, materialName, ItemUtils.getSimpleStack(tempIngot, 1), materialTier); + tempBlock = new BlockBaseModular(unlocalizedName, materialName, BlockTypes.STANDARD, Colour); + tempBlock = new BlockBaseModular(unlocalizedName, materialName, BlockTypes.FRAME, Colour); + temp = new BaseItemIngot("itemIngot" + unlocalizedName, materialName, Colour, sRadiation); + if (hotIngot) { + final Item tempIngot = temp; + temp = new BaseItemIngotHot("itemHotIngot" + unlocalizedName, materialName, + ItemUtils.getSimpleStack(tempIngot, 1), materialTier); } - temp = new BaseItemDust("itemDust"+unlocalizedName, materialName, matInfo, Colour, "Dust", materialTier, sRadiation); - temp = new BaseItemDust("itemDustTiny"+unlocalizedName, materialName, matInfo, Colour, "Tiny", materialTier, sRadiation); - temp = new BaseItemDust("itemDustSmall"+unlocalizedName, materialName, matInfo, Colour, "Small", materialTier, sRadiation); + temp = new BaseItemDust("itemDust" + unlocalizedName, materialName, matInfo, Colour, "Dust", materialTier, + sRadiation); + temp = new BaseItemDust("itemDustTiny" + unlocalizedName, materialName, matInfo, Colour, "Tiny", + materialTier, sRadiation); + temp = new BaseItemDust("itemDustSmall" + unlocalizedName, materialName, matInfo, Colour, "Small", + materialTier, sRadiation); temp = new BaseItemNugget(matInfo); temp = new BaseItemPlate(matInfo); temp = new BaseItemPlateDouble(matInfo); @@ -79,18 +86,15 @@ public class MaterialGenerator { temp = new BaseItemScrew(matInfo); temp = new BaseItemRotor(matInfo); temp = new BaseItemGear(matInfo); - } - - - - - //Add A jillion Recipes - old code + } + + // Add A jillion Recipes - old code RecipeGen_Plates.generateRecipes(matInfo); RecipeGen_Extruder.generateRecipes(matInfo); RecipeGen_ShapedCrafting.generateRecipes(matInfo); RecipeGen_DustGeneration.generateRecipes(matInfo); - RecipeGen_BlastSmelter.generateARecipe(matInfo); - + RecipeGen_BlastSmelter.generateARecipe(matInfo); + } } diff --git a/src/Java/gtPlusPlus/core/material/MaterialStack.java b/src/Java/gtPlusPlus/core/material/MaterialStack.java index 5e68c934d7..85b5fca748 100644 --- a/src/Java/gtPlusPlus/core/material/MaterialStack.java +++ b/src/Java/gtPlusPlus/core/material/MaterialStack.java @@ -8,81 +8,77 @@ import net.minecraft.item.ItemStack; public class MaterialStack { - private transient final int[] vAmount; - private final Material stackMaterial; - private final double vPercentageToUse; + private transient final int[] vAmount; + private final Material stackMaterial; + private final double vPercentageToUse; - public MaterialStack(final Material inputs, final double partOutOf100){ + public MaterialStack(final Material inputs, final double partOutOf100) { this.stackMaterial = inputs; this.vPercentageToUse = partOutOf100; - this.vAmount = math(partOutOf100); + this.vAmount = this.math(partOutOf100); } - @SuppressWarnings("static-method") - private int[] math(final double val){ - double i; - //Cast to a BigDecimal to round it. - final BigDecimal bd = new BigDecimal(val).setScale(2, RoundingMode.HALF_EVEN); - i = bd.doubleValue(); - //Split the string into xx.xx - final String[] arr=String.valueOf(i).split("\\."); - int[] intArr=new int[2]; - intArr[0]=Integer.parseInt(arr[0]); - intArr[1]=Integer.parseInt(arr[1]); - return intArr; - } - - public ItemStack getDustStack(){ + public ItemStack getDustStack() { return this.stackMaterial.getDust(this.vAmount[0]); } - - public ItemStack getDustStack(final int amount){ + + public ItemStack getDustStack(final int amount) { return this.stackMaterial.getDust(amount); } - - public Material getStackMaterial(){ - return this.stackMaterial; - } - - public double getvPercentageToUse(){ - return this.vPercentageToUse; - } - - public long[] getSmallestStackSizes(){ - return this.stackMaterial.getSmallestRatio(stackMaterial.getComposites()); - } - - public int getPartsPerOneHundred(){ - if (this.vAmount != null){ - if (this.vAmount[0] >= 1 && this.vAmount[0] <= 100){ - return this.vAmount[0]; - } - } - return 100; - } - public ItemStack getLeftOverStacksFromDecimalValue(){ + + public ItemStack getLeftOverStacksFromDecimalValue() { final int temp = this.vAmount[1]; int getCount; - if (temp >= 25 && temp <=99){ - getCount = temp/25; + if (temp >= 25 && temp <= 99) { + getCount = temp / 25; return this.stackMaterial.getSmallDust(getCount); } - else if (temp >= 11 && temp <= 24){ - getCount = temp/11; + else if (temp >= 11 && temp <= 24) { + getCount = temp / 11; return this.stackMaterial.getTinyDust(getCount); } else { return null; - } + } } - public ItemStack[] getValidItemStacks(){ - return ItemUtils.validItemsForOreDict(stackMaterial.getUnlocalizedName()); + public int getPartsPerOneHundred() { + if (this.vAmount != null) { + if (this.vAmount[0] >= 1 && this.vAmount[0] <= 100) { + return this.vAmount[0]; + } + } + return 100; } + public long[] getSmallestStackSizes() { + return this.stackMaterial.getSmallestRatio(this.stackMaterial.getComposites()); + } + public Material getStackMaterial() { + return this.stackMaterial; + } + public ItemStack[] getValidItemStacks() { + return ItemUtils.validItemsForOreDict(this.stackMaterial.getUnlocalizedName()); + } + public double getvPercentageToUse() { + return this.vPercentageToUse; + } + @SuppressWarnings("static-method") + private int[] math(final double val) { + double i; + // Cast to a BigDecimal to round it. + final BigDecimal bd = new BigDecimal(val).setScale(2, RoundingMode.HALF_EVEN); + i = bd.doubleValue(); + // Split the string into xx.xx + final String[] arr = String.valueOf(i).split("\\."); + final int[] intArr = new int[2]; + intArr[0] = Integer.parseInt(arr[0]); + intArr[1] = Integer.parseInt(arr[1]); + return intArr; + } } |