diff options
| author | Alkalus <3060479+draknyte1@users.noreply.github.com> | 2021-12-07 14:37:22 +0000 |
|---|---|---|
| committer | Alkalus <3060479+draknyte1@users.noreply.github.com> | 2021-12-07 14:37:22 +0000 |
| commit | 43e67b5f97543c2a1ea51b89ed745d0773f94751 (patch) | |
| tree | 989d74129ab372f798f2a899d38e353b4480b8a5 /src/Java/gtPlusPlus | |
| parent | a00d9f9245db7dc0c425044c0aeff84d15092dfd (diff) | |
| download | GT5-Unofficial-43e67b5f97543c2a1ea51b89ed745d0773f94751.tar.gz GT5-Unofficial-43e67b5f97543c2a1ea51b89ed745d0773f94751.tar.bz2 GT5-Unofficial-43e67b5f97543c2a1ea51b89ed745d0773f94751.zip | |
Added more nuclear processing recipes.
Removed lots of useless nuclear generated items.
More NEI improvements.
Made Dehydrator and FFPP recipe handling more lenient.
Diffstat (limited to 'src/Java/gtPlusPlus')
32 files changed, 699 insertions, 788 deletions
diff --git a/src/Java/gtPlusPlus/core/item/ModItems.java b/src/Java/gtPlusPlus/core/item/ModItems.java index 272b16fbfb..5447bec472 100644 --- a/src/Java/gtPlusPlus/core/item/ModItems.java +++ b/src/Java/gtPlusPlus/core/item/ModItems.java @@ -5,6 +5,7 @@ import static gtPlusPlus.core.lib.CORE.LOAD_ALL_CONTENT; import cpw.mods.fml.common.registry.GameRegistry; import gregtech.api.enums.Materials; +import gregtech.api.enums.OrePrefixes; import gregtech.api.util.GT_OreDictUnificator; import gtPlusPlus.api.objects.Logger; import gtPlusPlus.core.block.base.BasicBlock.BlockTypes; @@ -232,8 +233,8 @@ public final class ModItems { public static Item dustFertUN18; public static Item dustFertUN32; - public static Fluid fluidFLiBeSalt; - public static Fluid fluidFLiBeSaltBurnt; + //public static Fluid fluidFLiBeSalt; + //public static Fluid fluidFLiBeSaltBurnt; public static Fluid fluidLftrCore1; public static Fluid fluidLftrCore2; @@ -549,30 +550,31 @@ public final class ModItems { MaterialGenerator.generate(ALLOY.TUNGSTEN_TITANIUM_CARBIDE); //LFTR Fuel components - MaterialGenerator.generate(MISC_MATERIALS.HYDROXIDE); //LFTR fuel component - MaterialGenerator.generate(MISC_MATERIALS.AMMONIA); //LFTR fuel component - MaterialGenerator.generate(MISC_MATERIALS.AMMONIUM); //LFTR fuel component - MaterialGenerator.generate(FLUORIDES.AMMONIUM_BIFLUORIDE); //LFTR fuel component - MaterialGenerator.generate(FLUORIDES.BERYLLIUM_HYDROXIDE); //LFTR fuel component - MaterialGenerator.generate(FLUORIDES.AMMONIUM_TETRAFLUOROBERYLLATE); //LFTR fuel component + //MaterialGenerator.generate(MISC_MATERIALS.HYDROXIDE); //LFTR fuel component + //MaterialGenerator.generate(MISC_MATERIALS.AMMONIA); //LFTR fuel component + //MaterialGenerator.generate(MISC_MATERIALS.AMMONIUM); //LFTR fuel component + MaterialGenerator.generateNuclearDusts(FLUORIDES.AMMONIUM_BIFLUORIDE); //LFTR fuel component + MaterialGenerator.generateNuclearDusts(FLUORIDES.BERYLLIUM_HYDROXIDE); //LFTR fuel component + MaterialGenerator.generateNuclearDusts(FLUORIDES.AMMONIUM_TETRAFLUOROBERYLLATE); //LFTR fuel component //Generate Fluorides - MaterialGenerator.generateNuclearMaterial(FLUORIDES.BERYLLIUM_FLUORIDE); - MaterialGenerator.generateNuclearMaterial(FLUORIDES.LITHIUM_FLUORIDE); - MaterialGenerator.generateNuclearMaterial(FLUORIDES.THORIUM_TETRAFLUORIDE); - MaterialGenerator.generateNuclearMaterial(FLUORIDES.THORIUM_HEXAFLUORIDE); - MaterialGenerator.generateNuclearMaterial(FLUORIDES.URANIUM_TETRAFLUORIDE); - MaterialGenerator.generateNuclearMaterial(FLUORIDES.URANIUM_HEXAFLUORIDE); - MaterialGenerator.generateNuclearMaterial(FLUORIDES.ZIRCONIUM_TETRAFLUORIDE); + MaterialGenerator.generateNuclearDusts(FLUORIDES.BERYLLIUM_FLUORIDE); + MaterialGenerator.generateNuclearDusts(FLUORIDES.LITHIUM_FLUORIDE); + MaterialGenerator.generateNuclearDusts(FLUORIDES.THORIUM_TETRAFLUORIDE); + MaterialGenerator.generateNuclearDusts(FLUORIDES.THORIUM_HEXAFLUORIDE); + MaterialGenerator.generateNuclearDusts(FLUORIDES.URANIUM_TETRAFLUORIDE, false); + MaterialGenerator.generateNuclearDusts(FLUORIDES.URANIUM_HEXAFLUORIDE, false); + MaterialGenerator.generateNuclearDusts(FLUORIDES.ZIRCONIUM_TETRAFLUORIDE); //LFTR Fluoride outputs - MaterialGenerator.generateNuclearMaterial(FLUORIDES.NEPTUNIUM_HEXAFLUORIDE); - MaterialGenerator.generateNuclearMaterial(FLUORIDES.TECHNETIUM_HEXAFLUORIDE); - MaterialGenerator.generateNuclearMaterial(FLUORIDES.SELENIUM_HEXAFLUORIDE); + MaterialGenerator.generateNuclearDusts(FLUORIDES.NEPTUNIUM_HEXAFLUORIDE); + MaterialGenerator.generateNuclearDusts(FLUORIDES.TECHNETIUM_HEXAFLUORIDE); + MaterialGenerator.generateNuclearDusts(FLUORIDES.SELENIUM_HEXAFLUORIDE); //Generate Reactor Fuel Salts - MaterialGenerator.generateNuclearMaterial(NUCLIDE.LiFBeF2ZrF4U235, false); - MaterialGenerator.generateNuclearMaterial(NUCLIDE.LiFBeF2ZrF4UF4, false); - MaterialGenerator.generateNuclearMaterial(NUCLIDE.LiFBeF2ThF4UF4, false); + MaterialGenerator.generateNuclearDusts(NUCLIDE.LiFBeF2ZrF4U235); + MaterialGenerator.generateNuclearDusts(NUCLIDE.LiFBeF2ZrF4UF4); + MaterialGenerator.generateNuclearDusts(NUCLIDE.LiFBeF2ThF4UF4); + //MaterialGenerator.generateNuclearMaterial(NUCLIDE.Li2BeF4, false); //Generate some Alloys @@ -725,10 +727,11 @@ public final class ModItems { dustLi2CO3CaOH2 = ItemUtils.generateSpecialUseDusts("Li2CO3CaOH2", "Li2CO3 + Ca(OH)2 Compound", "Li2CO3CaOH2", Utils.rgbtoHexValue(255, 255, 255))[0]; //https://en.wikipedia.org/wiki/Calcium_carbonate //FLiBe Fuel Compounds - dustLi2BeF4 = ItemUtils.generateSpecialUseDusts("Li2BeF4", "Li2BeF4 Fuel Compound", "Li2BeF4", Utils.rgbtoHexValue(255, 255, 255))[0]; //https://en.wikipedia.org/wiki/FLiBe + dustLi2BeF4 = ItemUtils.generateSpecialUseDusts("Li2BeF4", "Lithium Tetrafluoroberyllate Fuel Compound", "Li2BeF4", Utils.rgbtoHexValue(255, 255, 255))[0]; //https://en.wikipedia.org/wiki/FLiBe + Material.registerComponentForMaterial(NUCLIDE.Li2BeF4, OrePrefixes.dust, ItemUtils.getSimpleStack(dustLi2BeF4)); //fluidFLiBeSalt = ("Li2BeF4", "Li2BeF4", 7430, new short[]{255, 255, 255, 100}, 0); - fluidFLiBeSalt = FluidUtils.addGTFluidNoPrefix("Li2BeF4", "Li2BeF4", new short[]{255, 255, 255, 100}, 0, 743, null, CI.emptyCells(1), 1000, true); - fluidFLiBeSaltBurnt = FluidUtils.addGTFluidNoPrefix("Li2BeF2UF4", "Li2BeF2UF4", new short[]{50, 255, 50, 100}, 0, 743, null, CI.emptyCells(1), 1000, true); + //fluidFLiBeSalt = FluidUtils.addGTFluidNoPrefix("Li2BeF4", "Lithium Tetrafluoroberyllate", new short[]{255, 255, 255, 100}, 0, 743, null, CI.emptyCells(1), 1000, true); + //fluidFLiBeSaltBurnt = FluidUtils.addGTFluidNoPrefix("Li2BeF2UF4", "Li2BeF2UF4", new short[]{50, 255, 50, 100}, 0, 743, null, CI.emptyCells(1), 1000, true); // LFTR Core Fluid Processing //fluidLftrCore1 = FluidUtils.addGTFluidNoPrefix("LiBeF2UF4FP", "LiBeF2UF4FP", new short[]{110, 255, 110, 100}, 0, 800, null, CI.emptyCells(1), 1000, true); @@ -1069,10 +1072,10 @@ public final class ModItems { GT_OreDictUnificator.registerOre("platePhasedIron", ItemUtils.getSimpleStack(itemPlatePulsatingIron)); GT_OreDictUnificator.registerOre("blockVibrantAlloy", ItemUtils.getItemStackOfAmountFromOreDict("blockPhasedGold", 1)); - CORE.RA.addFluidExtractionRecipe(MaterialEIO.REDSTONE_ALLOY.getPlate(1), MaterialEIO.REDSTONE_ALLOY.getFluid(144), 16, 4*9); - CORE.RA.addFluidExtractionRecipe(MaterialEIO.REDSTONE_ALLOY.getIngot(1), MaterialEIO.REDSTONE_ALLOY.getFluid(144), 16, 4*9); - CORE.RA.addFluidExtractionRecipe(MaterialEIO.REDSTONE_ALLOY.getNugget(1), MaterialEIO.REDSTONE_ALLOY.getFluid(16), 16, 4); - CORE.RA.addFluidExtractionRecipe(MaterialEIO.REDSTONE_ALLOY.getBlock(1), MaterialEIO.REDSTONE_ALLOY.getFluid(1294), 16, 4*9*9); + CORE.RA.addFluidExtractionRecipe(MaterialEIO.REDSTONE_ALLOY.getPlate(1), MaterialEIO.REDSTONE_ALLOY.getFluidStack(144), 16, 4*9); + CORE.RA.addFluidExtractionRecipe(MaterialEIO.REDSTONE_ALLOY.getIngot(1), MaterialEIO.REDSTONE_ALLOY.getFluidStack(144), 16, 4*9); + CORE.RA.addFluidExtractionRecipe(MaterialEIO.REDSTONE_ALLOY.getNugget(1), MaterialEIO.REDSTONE_ALLOY.getFluidStack(16), 16, 4); + CORE.RA.addFluidExtractionRecipe(MaterialEIO.REDSTONE_ALLOY.getBlock(1), MaterialEIO.REDSTONE_ALLOY.getFluidStack(1294), 16, 4*9*9); } else { diff --git a/src/Java/gtPlusPlus/core/item/chemistry/GenericChem.java b/src/Java/gtPlusPlus/core/item/chemistry/GenericChem.java index f61a2096b7..ecdc97357f 100644 --- a/src/Java/gtPlusPlus/core/item/chemistry/GenericChem.java +++ b/src/Java/gtPlusPlus/core/item/chemistry/GenericChem.java @@ -351,7 +351,7 @@ public class GenericChem extends ItemPackage { }, new FluidStack[] { - ELEMENT.getInstance().HYDROGEN.getFluid(2000) + ELEMENT.getInstance().HYDROGEN.getFluidStack(2000) }, 20 *20, 120, @@ -433,8 +433,8 @@ public class GenericChem extends ItemPackage { private void recipeHydricSulfur() { ItemStack aCellHydricSulfide = ItemUtils.getItemStackOfAmountFromOreDict("cellHydrogenSulfide", 1); - GT_Values.RA.addChemicalRecipe( ELEMENT.getInstance().SULFUR.getDust(1), GT_Utility.getIntegratedCircuit(1), ELEMENT.getInstance().HYDROGEN.getFluid(2000), FluidUtils.getFluidStack(Hydrogen_Sulfide, 3000), GT_Values.NI, 60, 8); - GT_Values.RA.addChemicalRecipeForBasicMachineOnly(ELEMENT.getInstance().SULFUR.getDust(1), CI.emptyCells(3), ELEMENT.getInstance().HYDROGEN.getFluid(2000), GT_Values.NF, ItemUtils.getSimpleStack(aCellHydricSulfide, 3), GT_Values.NI, 60, 8); + GT_Values.RA.addChemicalRecipe( ELEMENT.getInstance().SULFUR.getDust(1), GT_Utility.getIntegratedCircuit(1), ELEMENT.getInstance().HYDROGEN.getFluidStack(2000), FluidUtils.getFluidStack(Hydrogen_Sulfide, 3000), GT_Values.NI, 60, 8); + GT_Values.RA.addChemicalRecipeForBasicMachineOnly(ELEMENT.getInstance().SULFUR.getDust(1), CI.emptyCells(3), ELEMENT.getInstance().HYDROGEN.getFluidStack(2000), GT_Values.NF, ItemUtils.getSimpleStack(aCellHydricSulfide, 3), GT_Values.NI, 60, 8); } @@ -516,9 +516,9 @@ public class GenericChem extends ItemPackage { private void recipeNitrogenDioxide() { ItemStack aNitricOxideCell = ItemUtils.getItemStackOfAmountFromOreDict("cellNitricOxide", 1); ItemStack aNitrogenDioxideCell = ItemUtils.getItemStackOfAmountFromOreDict("cellNitrogenDioxide", 1); - GT_Values.RA.addChemicalRecipe( ItemUtils.getSimpleStack(aNitricOxideCell, 2), GT_Utility.getIntegratedCircuit(1), ELEMENT.getInstance().OXYGEN.getFluid(1000), FluidUtils.getFluidStack(Nitrogen_Dioxide, 3000), CI.emptyCells(2), 160); + GT_Values.RA.addChemicalRecipe( ItemUtils.getSimpleStack(aNitricOxideCell, 2), GT_Utility.getIntegratedCircuit(1), ELEMENT.getInstance().OXYGEN.getFluidStack(1000), FluidUtils.getFluidStack(Nitrogen_Dioxide, 3000), CI.emptyCells(2), 160); GT_Values.RA.addChemicalRecipe( ELEMENT.getInstance().OXYGEN.getCell(1), GT_Utility.getIntegratedCircuit(1), FluidUtils.getFluidStack(Nitric_Oxide, 2000), FluidUtils.getFluidStack(Nitrogen_Dioxide, 3000), CI.emptyCells(1), 160); - GT_Values.RA.addChemicalRecipeForBasicMachineOnly(ItemUtils.getSimpleStack(aNitricOxideCell, 2), CI.emptyCells(1), ELEMENT.getInstance().OXYGEN.getFluid(1000), GT_Values.NF, ItemUtils.getSimpleStack(aNitrogenDioxideCell, 3), GT_Values.NI, 160, 30); + GT_Values.RA.addChemicalRecipeForBasicMachineOnly(ItemUtils.getSimpleStack(aNitricOxideCell, 2), CI.emptyCells(1), ELEMENT.getInstance().OXYGEN.getFluidStack(1000), GT_Values.NF, ItemUtils.getSimpleStack(aNitrogenDioxideCell, 3), GT_Values.NI, 160, 30); GT_Values.RA.addChemicalRecipeForBasicMachineOnly(ELEMENT.getInstance().OXYGEN.getCell(1), CI.emptyCells(2), FluidUtils.getFluidStack(Nitric_Oxide, 2000), GT_Values.NF, ItemUtils.getSimpleStack(aNitrogenDioxideCell, 3), GT_Values.NI, 160, 30); GT_Values.RA.addChemicalRecipeForBasicMachineOnly(ItemUtils.getSimpleStack(aNitricOxideCell, 2), ELEMENT.getInstance().OXYGEN.getCell(1), GT_Values.NF, GT_Values.NF, ItemUtils.getSimpleStack(aNitrogenDioxideCell, 3), GT_Values.NI, 160, 30); } @@ -527,16 +527,16 @@ public class GenericChem extends ItemPackage { private void recipeNitricOxide() { ItemStack aWaterCell = ItemUtils.getItemStackOfAmountFromOreDict("cellWater", 1); ItemStack aNitricOxideCell = ItemUtils.getItemStackOfAmountFromOreDict("cellNitricOxide", 1); - GT_Values.RA.addChemicalRecipeForBasicMachineOnly(MISC_MATERIALS.AMMONIA.getCell(8), CI.emptyCells(1), ELEMENT.getInstance().OXYGEN.getFluid(5000), FluidUtils.getFluidStack(Nitric_Oxide, 4000), ItemUtils.getSimpleStack(aWaterCell, 9), GT_Values.NI, 160, 30); - GT_Values.RA.addChemicalRecipeForBasicMachineOnly(ELEMENT.getInstance().OXYGEN.getCell(5), CI.emptyCells(4), MISC_MATERIALS.AMMONIA.getFluid(8000), FluidUtils.getFluidStack(Nitric_Oxide, 4000), ItemUtils.getSimpleStack(aWaterCell, 9), GT_Values.NI, 160, 30); - GT_Values.RA.addChemicalRecipe( MISC_MATERIALS.AMMONIA.getCell(8), GT_Utility.getIntegratedCircuit(11), ELEMENT.getInstance().OXYGEN.getFluid(5000), FluidUtils.getWater(9000), ItemUtils.getSimpleStack(aNitricOxideCell, 4), CI.emptyCells(4), 160); - GT_Values.RA.addChemicalRecipe( ELEMENT.getInstance().OXYGEN.getCell(5), GT_Utility.getIntegratedCircuit(11), MISC_MATERIALS.AMMONIA.getFluid(8000), FluidUtils.getWater(9000), ItemUtils.getSimpleStack(aNitricOxideCell, 4), CI.emptyCells(1), 160); - GT_Values.RA.addChemicalRecipe( MISC_MATERIALS.AMMONIA.getCell(8), GT_Utility.getIntegratedCircuit(2), ELEMENT.getInstance().OXYGEN.getFluid(5000), FluidUtils.getFluidStack(Nitric_Oxide, 4000), CI.emptyCells(8), 320); - GT_Values.RA.addChemicalRecipe( ELEMENT.getInstance().OXYGEN.getCell(5), GT_Utility.getIntegratedCircuit(2), MISC_MATERIALS.AMMONIA.getFluid(8000), FluidUtils.getFluidStack(Nitric_Oxide, 4000), CI.emptyCells(5), 320); - GT_Values.RA.addChemicalRecipe( MISC_MATERIALS.AMMONIA.getCell(8), GT_Utility.getIntegratedCircuit(12), ELEMENT.getInstance().OXYGEN.getFluid(5000), GT_Values.NF, ItemUtils.getSimpleStack(aNitricOxideCell, 4), CI.emptyCells(4), 160); - GT_Values.RA.addChemicalRecipe( ELEMENT.getInstance().OXYGEN.getCell(5), GT_Utility.getIntegratedCircuit(12), MISC_MATERIALS.AMMONIA.getFluid(8000), GT_Values.NF, ItemUtils.getSimpleStack(aNitricOxideCell, 4), CI.emptyCells(1), 160); + GT_Values.RA.addChemicalRecipeForBasicMachineOnly(MISC_MATERIALS.AMMONIA.getCell(8), CI.emptyCells(1), ELEMENT.getInstance().OXYGEN.getFluidStack(5000), FluidUtils.getFluidStack(Nitric_Oxide, 4000), ItemUtils.getSimpleStack(aWaterCell, 9), GT_Values.NI, 160, 30); + GT_Values.RA.addChemicalRecipeForBasicMachineOnly(ELEMENT.getInstance().OXYGEN.getCell(5), CI.emptyCells(4), MISC_MATERIALS.AMMONIA.getFluidStack(8000), FluidUtils.getFluidStack(Nitric_Oxide, 4000), ItemUtils.getSimpleStack(aWaterCell, 9), GT_Values.NI, 160, 30); + GT_Values.RA.addChemicalRecipe( MISC_MATERIALS.AMMONIA.getCell(8), GT_Utility.getIntegratedCircuit(11), ELEMENT.getInstance().OXYGEN.getFluidStack(5000), FluidUtils.getWater(9000), ItemUtils.getSimpleStack(aNitricOxideCell, 4), CI.emptyCells(4), 160); + GT_Values.RA.addChemicalRecipe( ELEMENT.getInstance().OXYGEN.getCell(5), GT_Utility.getIntegratedCircuit(11), MISC_MATERIALS.AMMONIA.getFluidStack(8000), FluidUtils.getWater(9000), ItemUtils.getSimpleStack(aNitricOxideCell, 4), CI.emptyCells(1), 160); + GT_Values.RA.addChemicalRecipe( MISC_MATERIALS.AMMONIA.getCell(8), GT_Utility.getIntegratedCircuit(2), ELEMENT.getInstance().OXYGEN.getFluidStack(5000), FluidUtils.getFluidStack(Nitric_Oxide, 4000), CI.emptyCells(8), 320); + GT_Values.RA.addChemicalRecipe( ELEMENT.getInstance().OXYGEN.getCell(5), GT_Utility.getIntegratedCircuit(2), MISC_MATERIALS.AMMONIA.getFluidStack(8000), FluidUtils.getFluidStack(Nitric_Oxide, 4000), CI.emptyCells(5), 320); + GT_Values.RA.addChemicalRecipe( MISC_MATERIALS.AMMONIA.getCell(8), GT_Utility.getIntegratedCircuit(12), ELEMENT.getInstance().OXYGEN.getFluidStack(5000), GT_Values.NF, ItemUtils.getSimpleStack(aNitricOxideCell, 4), CI.emptyCells(4), 160); + GT_Values.RA.addChemicalRecipe( ELEMENT.getInstance().OXYGEN.getCell(5), GT_Utility.getIntegratedCircuit(12), MISC_MATERIALS.AMMONIA.getFluidStack(8000), GT_Values.NF, ItemUtils.getSimpleStack(aNitricOxideCell, 4), CI.emptyCells(1), 160); GT_Values.RA.addChemicalRecipeForBasicMachineOnly(MISC_MATERIALS.AMMONIA.getCell(8), ELEMENT.getInstance().OXYGEN.getCell(5), GT_Values.NF, GT_Values.NF, ItemUtils.getSimpleStack(aNitricOxideCell, 4), ItemUtils.getSimpleStack(aWaterCell, 9), 160, 30); - GT_Values.RA.addMultiblockChemicalRecipe(new ItemStack[]{GT_Utility.getIntegratedCircuit(1)}, new FluidStack[]{MISC_MATERIALS.AMMONIA.getFluid(8000), ELEMENT.getInstance().OXYGEN.getFluid(5000)}, new FluidStack[]{FluidUtils.getFluidStack(Nitric_Oxide, 4000), FluidUtils.getWater(9000)}, null, 160, 30); + GT_Values.RA.addMultiblockChemicalRecipe(new ItemStack[]{GT_Utility.getIntegratedCircuit(1)}, new FluidStack[]{MISC_MATERIALS.AMMONIA.getFluidStack(8000), ELEMENT.getInstance().OXYGEN.getFluidStack(5000)}, new FluidStack[]{FluidUtils.getFluidStack(Nitric_Oxide, 4000), FluidUtils.getWater(9000)}, null, 160, 30); } @@ -547,7 +547,7 @@ public class GenericChem extends ItemPackage { CORE.RA.addChemicalRecipe( ELEMENT.getInstance().CHLORINE.getCell(1), GT_Utility.getIntegratedCircuit(1), - ELEMENT.getInstance().HYDROGEN.getFluid(1000), + ELEMENT.getInstance().HYDROGEN.getFluidStack(1000), FluidUtils.getFluidStack(HydrochloricAcid, 2000), CI.emptyCells(1), 60, @@ -556,7 +556,7 @@ public class GenericChem extends ItemPackage { CORE.RA.addChemicalRecipe( ELEMENT.getInstance().HYDROGEN.getCell(1), GT_Utility.getIntegratedCircuit(1), - ELEMENT.getInstance().CHLORINE.getFluid(1000), + ELEMENT.getInstance().CHLORINE.getFluidStack(1000), FluidUtils.getFluidStack(HydrochloricAcid, 2000), CI.emptyCells(1), 60, @@ -566,7 +566,7 @@ public class GenericChem extends ItemPackage { CI.emptyCells(1), GT_Utility.getIntegratedCircuit(1), FluidUtils.getFluidStack(HydrochloricAcid, 2000), - ELEMENT.getInstance().CHLORINE.getFluid(1000), + ELEMENT.getInstance().CHLORINE.getFluidStack(1000), ELEMENT.getInstance().HYDROGEN.getCell(1), GT_Values.NI, GT_Values.NI, @@ -581,7 +581,7 @@ public class GenericChem extends ItemPackage { CI.emptyCells(1), GT_Utility.getIntegratedCircuit(11), FluidUtils.getFluidStack(HydrochloricAcid, 2000), - ELEMENT.getInstance().HYDROGEN.getFluid(1000), + ELEMENT.getInstance().HYDROGEN.getFluidStack(1000), ELEMENT.getInstance().CHLORINE.getCell(1), GT_Values.NI, GT_Values.NI, diff --git a/src/Java/gtPlusPlus/core/material/Material.java b/src/Java/gtPlusPlus/core/material/Material.java index 404c5c7918..cc7e21656b 100644 --- a/src/Java/gtPlusPlus/core/material/Material.java +++ b/src/Java/gtPlusPlus/core/material/Material.java @@ -49,7 +49,7 @@ public class Material { private MaterialState materialState; private TextureSet textureSet; - private Fluid vMoltenFluid; + private Fluid mFluid; private Fluid vPlasma; private boolean vGenerateCells; @@ -478,7 +478,7 @@ public class Material { final Materials isValid = Materials.get(this.getLocalizedName()); FluidStack aTest = FluidUtils.getWildcardFluidStack(localizedName, 1); if (aTest != null){ - this.vMoltenFluid = aTest.getFluid(); + this.mFluid = aTest.getFluid(); } else { if (isValid == null || isValid == Materials._NULL){ @@ -487,7 +487,7 @@ public class Material { else { FluidStack aTest2 = FluidUtils.getWildcardFluidStack(localizedName, 1); if (aTest2 != null){ - this.vMoltenFluid = aTest2.getFluid(); + this.mFluid = aTest2.getFluid(); } else { queueFluidGeneration(); @@ -497,7 +497,7 @@ public class Material { this.vPlasma = this.generatePlasma(); } else { - this.vMoltenFluid = null; + this.mFluid = null; this.vPlasma = null; } String ratio = ""; @@ -1104,7 +1104,7 @@ public class Material { public final static void generateQueuedFluids() { for (Material m : mMaterialMap) { if (m.isFluidQueued) { - m.vMoltenFluid = m.generateFluid(); + m.mFluid = m.generateFluid(); } } } @@ -1249,18 +1249,21 @@ public class Material { } + public Fluid getFluid() { + return mFluid; + } - final public FluidStack getFluid(final int fluidAmount) { - if (this.vMoltenFluid == null){ + final public FluidStack getFluidStack(final int fluidAmount) { + if (this.mFluid == null){ return null; } - final FluidStack moltenFluid = new FluidStack(this.vMoltenFluid, fluidAmount); + final FluidStack moltenFluid = new FluidStack(this.mFluid, fluidAmount); return moltenFluid; } final public boolean setFluid(Fluid aFluid) { - if (this.vMoltenFluid == null){ - this.vMoltenFluid = aFluid; + if (this.mFluid == null){ + this.mFluid = aFluid; return true; } return false; @@ -1353,8 +1356,8 @@ public class Material { } private static boolean registerComponentForMaterial(Material componentMaterial, FluidStack aStack) { - if (componentMaterial != null && aStack != null && componentMaterial.vMoltenFluid == null) { - componentMaterial.vMoltenFluid = aStack.getFluid(); + if (componentMaterial != null && aStack != null && componentMaterial.mFluid == null) { + componentMaterial.mFluid = aStack.getFluid(); return true; } return false; diff --git a/src/Java/gtPlusPlus/core/material/MaterialGenerator.java b/src/Java/gtPlusPlus/core/material/MaterialGenerator.java index 68026d1cac..4a3af94f6d 100644 --- a/src/Java/gtPlusPlus/core/material/MaterialGenerator.java +++ b/src/Java/gtPlusPlus/core/material/MaterialGenerator.java @@ -29,7 +29,10 @@ import gtPlusPlus.core.item.base.rods.BaseItemRod; import gtPlusPlus.core.item.base.rods.BaseItemRodLong; import gtPlusPlus.core.item.base.rotors.BaseItemRotor; import gtPlusPlus.core.item.base.screws.BaseItemScrew; +import gtPlusPlus.core.lib.CORE; +import gtPlusPlus.core.material.nuclear.FLUORIDES; import gtPlusPlus.core.material.state.MaterialState; +import gtPlusPlus.core.recipe.common.CI; import gtPlusPlus.core.util.Utils; import gtPlusPlus.core.util.minecraft.FluidUtils; import gtPlusPlus.core.util.minecraft.ItemUtils; @@ -262,13 +265,47 @@ public class MaterialGenerator { generateNuclearMaterial(matInfo, true); } + + public static void generateNuclearDusts(final Material matInfo){ + generateNuclearDusts(matInfo, true); + } + + public static void generateNuclearDusts(final Material matInfo, boolean generateDehydratorRecipe){ + generateNuclearMaterial(matInfo, false, true, false, false); + if (generateDehydratorRecipe && matInfo.getFluid() != null && matInfo.getDust(0) != null) { + CORE.RA.addDehydratorRecipe( + new ItemStack[] { + + }, + matInfo.getFluidStack(144), + null, + new ItemStack[] { + matInfo.getDust(1), + }, + new int[] { 10000 }, + 10*(matInfo.vVoltageMultiplier/5), // Time in ticks + matInfo.vVoltageMultiplier); // EU + } + } + public static void generateNuclearMaterial(final Material matInfo, final boolean generatePlates){ + generateNuclearMaterial(matInfo, true, true, true, generatePlates); + } + + public static void generateNuclearMaterial(final Material matInfo, final boolean generateBlock, + final boolean generateDusts, final boolean generateIngot, final boolean generatePlates){ try { - tempBlock = new BlockBaseModular(matInfo,BlockTypes.STANDARD); - temp = new BaseItemDust(matInfo); - temp = new BaseItemIngot(matInfo); - temp = new BaseItemNugget(matInfo); + if (generateBlock) { + tempBlock = new BlockBaseModular(matInfo,BlockTypes.STANDARD); + } + if (generateDusts) { + temp = new BaseItemDust(matInfo); + } + if (generateIngot) { + temp = new BaseItemIngot(matInfo); + temp = new BaseItemNugget(matInfo); + } if (generatePlates) { temp = new BaseItemPlate(matInfo); diff --git a/src/Java/gtPlusPlus/core/material/ORES.java b/src/Java/gtPlusPlus/core/material/ORES.java index c2556b60f1..363708859f 100644 --- a/src/Java/gtPlusPlus/core/material/ORES.java +++ b/src/Java/gtPlusPlus/core/material/ORES.java @@ -263,10 +263,11 @@ public final class ORES { -1, -1, //Radiation new MaterialStack[]{ - new MaterialStack(ELEMENT.getInstance().YTTRIUM, 1), - new MaterialStack(ELEMENT.getInstance().YTTERBIUM, 1), - new MaterialStack(ELEMENT.getInstance().PHOSPHORUS, 1), - new MaterialStack(ELEMENT.getInstance().OXYGEN, 4) + new MaterialStack(ELEMENT.getInstance().YTTRIUM, 2), + new MaterialStack(ELEMENT.getInstance().YTTERBIUM, 2), + new MaterialStack(ELEMENT.getInstance().EUROPIUM, 1), + new MaterialStack(ELEMENT.getInstance().PHOSPHORUS, 2), + new MaterialStack(ELEMENT.getInstance().OXYGEN, 8) }); public static final Material YTTRIALITE = new Material( diff --git a/src/Java/gtPlusPlus/core/material/nuclear/NUCLIDE.java b/src/Java/gtPlusPlus/core/material/nuclear/NUCLIDE.java index 9e59758f73..8fe99f16e7 100644 --- a/src/Java/gtPlusPlus/core/material/nuclear/NUCLIDE.java +++ b/src/Java/gtPlusPlus/core/material/nuclear/NUCLIDE.java @@ -10,6 +10,24 @@ import gtPlusPlus.core.util.data.StringUtils; public final class NUCLIDE { + public static final Material Li2BeF4 = new Material( + "Lithium Tetrafluoroberyllate", //Material Name + MaterialState.LIQUID, //State + TextureSets.NUCLEAR.get(), + null, //Material Colour + 566, //Melting Point in C + 870, //Boiling Point in C + -1, //Protons + -1, //Neutrons + false, //Uses Blast furnace? + StringUtils.subscript(StringUtils.superscript("7")+"Li2BeF4"), //Chemical Formula + 4, //Radioactivity Level + //Material Stacks with Percentage of required elements. + new MaterialStack[]{ + new MaterialStack(FLUORIDES.LITHIUM_FLUORIDE, 2), + new MaterialStack(FLUORIDES.BERYLLIUM_FLUORIDE, 1) + }); + public static final Material LiFBeF2ThF4UF4 = new Material( "LiFBeF2ThF4UF4", //Material Name MaterialState.LIQUID, //State @@ -70,6 +88,44 @@ public final class NUCLIDE { new MaterialStack(ELEMENT.getInstance().URANIUM235, 14) }); + // Misc + public static final Material BurntLftrFuel_MK1 = new Material( + "Burnt Reactor Fuel I", //Material Name + MaterialState.PURE_LIQUID, //State + null, //Material Colour + -1, //Melting Point in C + -1, //Boiling Point in C + -1, //Protons + -1, //Neutrons + false, //Uses Blast furnace? + StringUtils.subscript(StringUtils.superscript("7")+"LiBeF2UF4FP"), //Chemical Formula + //Material Stacks with Percentage of required elements. + new MaterialStack[]{ + new MaterialStack(ELEMENT.getInstance().LITHIUM, 1), + new MaterialStack(FLUORIDES.BERYLLIUM_FLUORIDE, 1), + new MaterialStack(FLUORIDES.URANIUM_TETRAFLUORIDE, 1), + new MaterialStack(ELEMENT.getInstance().PROTACTINIUM, 1) + }); + + public static final Material BurntLftrFuel_MK2 = new Material( + "Burnt Reactor Fuel II", //Material Name + MaterialState.PURE_LIQUID, //State + null, //Material Colour + -1, //Melting Point in C + -1, //Boiling Point in C + -1, //Protons + -1, //Neutrons + false, //Uses Blast furnace? + StringUtils.subscript(StringUtils.superscript("7")+"LiBeF2UF4FP"), //Chemical Formula + //Material Stacks with Percentage of required elements. + new MaterialStack[]{ + new MaterialStack(ELEMENT.getInstance().LITHIUM, 1), + new MaterialStack(FLUORIDES.BERYLLIUM_FLUORIDE, 1), + new MaterialStack(FLUORIDES.URANIUM_TETRAFLUORIDE, 1), + new MaterialStack(ELEMENT.getInstance().PROTACTINIUM, 1) + }); + + // LFTR Core Fluids public static final Material LiBeF2UF4FP = new Material( @@ -81,6 +137,7 @@ public final class NUCLIDE { -1, //Protons -1, //Neutrons false, //Uses Blast furnace? + StringUtils.subscript(StringUtils.superscript("7")+"LiBeF2UF4FP"), //Chemical Formula //Material Stacks with Percentage of required elements. new MaterialStack[]{ new MaterialStack(ELEMENT.getInstance().LITHIUM, 1), @@ -98,6 +155,7 @@ public final class NUCLIDE { -1, //Protons -1, //Neutrons false, //Uses Blast furnace? + StringUtils.subscript("UF6F2FP"), //Chemical Formula //Material Stacks with Percentage of required elements. new MaterialStack[]{ new MaterialStack(FLUORIDES.URANIUM_HEXAFLUORIDE, 1), @@ -114,6 +172,7 @@ public final class NUCLIDE { -1, //Protons -1, //Neutrons false, //Uses Blast furnace? + StringUtils.subscript(StringUtils.superscript("7")+"LiFBeF2"), //Chemical Formula //Material Stacks with Percentage of required elements. new MaterialStack[]{ new MaterialStack(FLUORIDES.LITHIUM_FLUORIDE, 1), @@ -129,6 +188,7 @@ public final class NUCLIDE { -1, //Protons -1, //Neutrons false, //Uses Blast furnace? + StringUtils.subscript(StringUtils.superscript("7")+"LiFBeF2UF4"), //Chemical Formula //Material Stacks with Percentage of required elements. new MaterialStack[]{ new MaterialStack(LiFBeF2, 1), @@ -142,6 +202,7 @@ public final class NUCLIDE { // LFTR Blanket Fluids + // Tier 1 Fuel blanket output public static final Material LiFThF4 = new Material( "LiFThF4", //Material Name MaterialState.PURE_LIQUID, //State @@ -151,12 +212,14 @@ public final class NUCLIDE { -1, //Protons -1, //Neutrons false, //Uses Blast furnace? + StringUtils.subscript(StringUtils.superscript("7")+"LiFThF4"), //Chemical Formula //Material Stacks with Percentage of required elements. new MaterialStack[]{ new MaterialStack(FLUORIDES.LITHIUM_FLUORIDE, 1), new MaterialStack(FLUORIDES.THORIUM_TETRAFLUORIDE, 1) }); + // Tier 2 Fuel blanket output public static |