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| author | Dream-Master <dream-master@gmx.net> | 2017-08-01 20:19:32 +0200 |
|---|---|---|
| committer | Dream-Master <dream-master@gmx.net> | 2017-08-01 20:19:32 +0200 |
| commit | 822787b37d346b12e9b529636914b055ce7d0f1a (patch) | |
| tree | 9fd872d5e1876b2d9f9309c3e20e02f655a3eb82 /src/main/java/gregtech/loaders/postload | |
| parent | 4c294a70287fbb21848d8ef4c564839342fad72a (diff) | |
| download | GT5-Unofficial-822787b37d346b12e9b529636914b055ce7d0f1a.tar.gz GT5-Unofficial-822787b37d346b12e9b529636914b055ce7d0f1a.tar.bz2 GT5-Unofficial-822787b37d346b12e9b529636914b055ce7d0f1a.zip | |
cherry pick
54fc4e222a4aee8fa122fa9767ba935c279c1ec0
Overhauled Fiberglass Circuit Board
Renamed: Fiberglass Circuit Board -> Fiber-Reinforced Circuit Board
Fiber-Reinforced Boards are now made by combining Epoxy Resin with
either Glass Fiber or Carbon Fiber.
Glass Fiber is produced from Borosilicate Glass, which is in turn
produced from Glass and Boron.
To make this feasible Salt and Rock Salt now yield Borax as a byproduct.
Diffstat (limited to 'src/main/java/gregtech/loaders/postload')
| -rw-r--r-- | src/main/java/gregtech/loaders/postload/GT_MachineRecipeLoader.java | 25 |
1 files changed, 23 insertions, 2 deletions
diff --git a/src/main/java/gregtech/loaders/postload/GT_MachineRecipeLoader.java b/src/main/java/gregtech/loaders/postload/GT_MachineRecipeLoader.java index f51779ba57..4c40c51025 100644 --- a/src/main/java/gregtech/loaders/postload/GT_MachineRecipeLoader.java +++ b/src/main/java/gregtech/loaders/postload/GT_MachineRecipeLoader.java @@ -27,7 +27,27 @@ import java.util.Iterator; import java.util.Map; public class GT_MachineRecipeLoader implements Runnable { - private final MaterialStack[][] mAlloySmelterList = {{new MaterialStack(Materials.Tetrahedrite, 3L), new MaterialStack(Materials.Tin, 1L), new MaterialStack(Materials.Bronze, 3L)}, {new MaterialStack(Materials.Tetrahedrite, 3L), new MaterialStack(Materials.Zinc, 1L), new MaterialStack(Materials.Brass, 3L)}, {new MaterialStack(Materials.Copper, 3L), new MaterialStack(Materials.Tin, 1L), new MaterialStack(Materials.Bronze, 4L)}, {new MaterialStack(Materials.Copper, 3L), new MaterialStack(Materials.Zinc, 1L), new MaterialStack(Materials.Brass, 4L)}, {new MaterialStack(Materials.Copper, 1L), new MaterialStack(Materials.Nickel, 1L), new MaterialStack(Materials.Cupronickel, 2L)}, {new MaterialStack(Materials.Copper, 1L), new MaterialStack(Materials.Redstone, 4L), new MaterialStack(Materials.RedAlloy, 1L)}, {new MaterialStack(Materials.AnnealedCopper, 3L), new MaterialStack(Materials.Tin, 1L), new MaterialStack(Materials.Bronze, 4L)}, {new MaterialStack(Materials.AnnealedCopper, 3L), new MaterialStack(Materials.Zinc, 1L), new MaterialStack(Materials.Brass, 4L)}, {new MaterialStack(Materials.AnnealedCopper, 1L), new MaterialStack(Materials.Nickel, 1L), new MaterialStack(Materials.Cupronickel, 2L)}, {new MaterialStack(Materials.AnnealedCopper, 1L), new MaterialStack(Materials.Redstone, 4L), new MaterialStack(Materials.RedAlloy, 1L)}, {new MaterialStack(Materials.Iron, 1L), new MaterialStack(Materials.Tin, 1L), new MaterialStack(Materials.TinAlloy, 2L)}, {new MaterialStack(Materials.WroughtIron, 1L), new MaterialStack(Materials.Tin, 1L), new MaterialStack(Materials.TinAlloy, 2L)}, {new MaterialStack(Materials.Iron, 2L), new MaterialStack(Materials.Nickel, 1L), new MaterialStack(Materials.Invar, 3L)}, {new MaterialStack(Materials.WroughtIron, 2L), new MaterialStack(Materials.Nickel, 1L), new MaterialStack(Materials.Invar, 3L)}, {new MaterialStack(Materials.Tin, 9L), new MaterialStack(Materials.Antimony, 1L), new MaterialStack(Materials.SolderingAlloy, 10L)}, {new MaterialStack(Materials.Lead, 4L), new MaterialStack(Materials.Antimony, 1L), new MaterialStack(Materials.BatteryAlloy, 5L)}, {new MaterialStack(Materials.Gold, 1L), new MaterialStack(Materials.Silver, 1L), new MaterialStack(Materials.Electrum, 2L)}, {new MaterialStack(Materials.Magnesium, 1L), new MaterialStack(Materials.Aluminium, 2L), new MaterialStack(Materials.Magnalium, 3L)}, {new MaterialStack(Materials.Silver, 1L), new MaterialStack(Materials.Nikolite, 4L), new MaterialStack(Materials.BlueAlloy, 1L)}}; + private final MaterialStack[][] mAlloySmelterList = { + {new MaterialStack(Materials.Tetrahedrite, 3L), new MaterialStack(Materials.Tin, 1L), new MaterialStack(Materials.Bronze, 3L)}, + {new MaterialStack(Materials.Tetrahedrite, 3L), new MaterialStack(Materials.Zinc, 1L), new MaterialStack(Materials.Brass, 3L)}, + {new MaterialStack(Materials.Copper, 3L), new MaterialStack(Materials.Tin, 1L), new MaterialStack(Materials.Bronze, 4L)}, + {new MaterialStack(Materials.Copper, 3L), new MaterialStack(Materials.Zinc, 1L), new MaterialStack(Materials.Brass, 4L)}, + {new MaterialStack(Materials.Copper, 1L), new MaterialStack(Materials.Nickel, 1L), new MaterialStack(Materials.Cupronickel, 2L)}, + {new MaterialStack(Materials.Copper, 1L), new MaterialStack(Materials.Redstone, 4L), new MaterialStack(Materials.RedAlloy, 1L)}, + {new MaterialStack(Materials.AnnealedCopper, 3L), new MaterialStack(Materials.Tin, 1L), new MaterialStack(Materials.Bronze, 4L)}, + {new MaterialStack(Materials.AnnealedCopper, 3L), new MaterialStack(Materials.Zinc, 1L), new MaterialStack(Materials.Brass, 4L)}, + {new MaterialStack(Materials.AnnealedCopper, 1L), new MaterialStack(Materials.Nickel, 1L), new MaterialStack(Materials.Cupronickel, 2L)}, + {new MaterialStack(Materials.AnnealedCopper, 1L), new MaterialStack(Materials.Redstone, 4L), new MaterialStack(Materials.RedAlloy, 1L)}, + {new MaterialStack(Materials.Iron, 1L), new MaterialStack(Materials.Tin, 1L), new MaterialStack(Materials.TinAlloy, 2L)}, + {new MaterialStack(Materials.WroughtIron, 1L), new MaterialStack(Materials.Tin, 1L), new MaterialStack(Materials.TinAlloy, 2L)}, + {new MaterialStack(Materials.Iron, 2L), new MaterialStack(Materials.Nickel, 1L), new MaterialStack(Materials.Invar, 3L)}, + {new MaterialStack(Materials.WroughtIron, 2L), new MaterialStack(Materials.Nickel, 1L), new MaterialStack(Materials.Invar, 3L)}, + {new MaterialStack(Materials.Tin, 9L), new MaterialStack(Materials.Antimony, 1L), new MaterialStack(Materials.SolderingAlloy, 10L)}, + {new MaterialStack(Materials.Lead, 4L), new MaterialStack(Materials.Antimony, 1L), new MaterialStack(Materials.BatteryAlloy, 5L)}, + {new MaterialStack(Materials.Gold, 1L), new MaterialStack(Materials.Silver, 1L), new MaterialStack(Materials.Electrum, 2L)}, + {new MaterialStack(Materials.Magnesium, 1L), new MaterialStack(Materials.Aluminium, 2L), new MaterialStack(Materials.Magnalium, 3L)}, + {new MaterialStack(Materials.Silver, 1L), new MaterialStack(Materials.Nikolite, 4L), new MaterialStack(Materials.BlueAlloy, 1L)}, + {new MaterialStack(Materials.Boron, 1L), new MaterialStack(Materials.Glass, 7L), new MaterialStack(Materials.BorosilicateGlass, 8L)}}; private final static String aTextAE = "appliedenergistics2"; private final static String aTextAEMM = "item.ItemMultiMaterial"; private final static String aTextForestry = "Forestry"; private final static String aTextEBXL = "ExtrabiomesXL"; private final static String aTextTCGTPage = "gt.research.page.1."; private final static Boolean isNEILoaded = Loader.isModLoaded("NotEnoughItems"); @@ -106,7 +126,8 @@ public class GT_MachineRecipeLoader implements Runnable { GT_Values.RA.addMixerRecipe(GT_OreDictUnificator.get(tPrefix, Materials.TungstenSteel, 5L), GT_OreDictUnificator.get(tPrefix, Materials.Chrome, 1L), GT_OreDictUnificator.get(tPrefix, Materials.Molybdenum, 2L), GT_OreDictUnificator.get(tPrefix, Materials.Vanadium, 1L), GT_Values.NI, GT_Utility.getIntegratedCircuit(1),GT_Values.NF, GT_Values.NF, GT_OreDictUnificator.getDust(Materials.HSSG, 9L * tPrefix.mMaterialAmount), (int) (600L * tPrefix.mMaterialAmount / 3628800L), 3500); GT_Values.RA.addMixerRecipe(GT_OreDictUnificator.get(tPrefix, Materials.HSSG, 6L), GT_OreDictUnificator.get(tPrefix, Materials.Cobalt, 1L), GT_OreDictUnificator.get(tPrefix, Materials.Manganese, 1L), GT_OreDictUnificator.get(tPrefix, Materials.Silicon, 1L), GT_Values.NI, GT_Utility.getIntegratedCircuit(1),GT_Values.NF, GT_Values.NF, GT_OreDictUnificator.getDust(Materials.HSSE, 9L * tPrefix.mMaterialAmount), (int) (700L * tPrefix.mMaterialAmount / 3628800L), 4000); - GT_Values.RA.addMixerRecipe(GT_OreDictUnificator.get(tPrefix, Materials.Nickel, 1L), GT_OreDictUnificator.get(tPrefix, Materials.Zinc, 1L), GT_OreDictUnificator.get(tPrefix, Materials.Iron, 4L), GT_Values.NI, GT_Values.NF, GT_Values.NF, GT_OreDictUnificator.getDust(Materials.FerriteMixture, 6L * tPrefix.mMaterialAmount), (int) (200L * tPrefix.mMaterialAmount / 3628800L), 8); + GT_Values.RA.addMixerRecipe(GT_OreDictUnificator.get(tPrefix, Materials.Nickel, 1L), GT_OreDictUnificator.get(tPrefix, Materials.Zinc, 1L), GT_OreDictUnificator.get(tPrefix, Materials.Iron, 4L), GT_Values.NI, GT_Values.NF, GT_Values.NF, GT_OreDictUnificator.getDust(Materials.FerriteMixture, 6L * tPrefix.mMaterialAmount), (int) (200L * tPrefix.mMaterialAmount / 3628800L), 8); + GT_Values.RA.addMixerRecipe(GT_OreDictUnificator.get(tPrefix, Materials.Boron, 1L), GT_OreDictUnificator.get(tPrefix, Materials.Glass, 1L), GT_Values.NI, GT_Values.NI, GT_Values.NF, GT_Values.NF, GT_OreDictUnificator.getDust(Materials.BorosilicateGlass, 8L * tPrefix.mMaterialAmount), (int) (200L * tPrefix.mMaterialAmount / 3628800L), 8); //InCore //GT_Values.RA.addMixerRecipe(GT_OreDictUnificator.get(tPrefix, Materials.HSSG,6L),GT_OreDictUnificator.get(tPrefix, Materials.Iridium, 2L), GT_OreDictUnificator.get(tPrefix, Materials.Osmium, 1L), GT_Values.NI, GT_Values.NF, GT_Values.NF, GT_OreDictUnificator.getDust(Materials.HSSS, 9L * tPrefix.mMaterialAmount), (int) (800L * tPrefix.mMaterialAmount / 3628800L), 4500); |