(int aID, String aNameOreDict, String aSymbol, long aProtonsAndElectrons, long aNeutrons, long aMeltingPoint, long aBoilingPoint, double aGramPerCubicCentimeter, TextureSet[] aSets, long aR, long aG, long aB, long aA, Object... aRandomData)
| 62 | static OreDictMaterial metal (int aID, String aNameOreDict, String aSymbol, long aProtonsAndElectrons, long aNeutrons, long aMeltingPoint, long aBoilingPoint, double aGramPerCubicCentimeter, TextureSet[] aSets, long aR, long aG, long aB, long aA, Object... aRandomData) {return element (aID, aNameOreDict, aSymbol, aProtonsAndElectrons, aNeutrons, aMeltingPoint, aBoilingPoint, aGramPerCubicCentimeter, aSets, aR, aG, aB, aA, aRandomData).put(METAL , G_INGOT_ORES, SMITHABLE, MELTING , EXTRUDER, aMeltingPoint <= 1200 ? new Object[] {EXTRUDER_SIMPLE, FURNACE, MORTAR} : null);} |
| 63 | static OreDictMaterial metalloid (int aID, String aNameOreDict, String aSymbol, long aProtonsAndElectrons, long aNeutrons, long aMeltingPoint, long aBoilingPoint, double aGramPerCubicCentimeter, TextureSet[] aSets, long aR, long aG, long aB, long aA, Object... aRandomData) {return element (aID, aNameOreDict, aSymbol, aProtonsAndElectrons, aNeutrons, aMeltingPoint, aBoilingPoint, aGramPerCubicCentimeter, aSets, aR, aG, aB, aA, aRandomData).put(METALLOID, G_INGOT_ORES, SMITHABLE, MELTING, MOLTEN, EXTRUDER, aMeltingPoint <= 1200 ? new Object[] {EXTRUDER_SIMPLE, FURNACE, MORTAR} : null);} |
| 64 | static OreDictMaterial nonmetal (int aID, String aNameOreDict, String aSymbol, long aProtonsAndElectrons, long aNeutrons, long aMeltingPoint, long aBoilingPoint, double aGramPerCubicCentimeter, TextureSet[] aSets, long aR, long aG, long aB, long aA, Object... aRandomData) {return element (aID, aNameOreDict, aSymbol, aProtonsAndElectrons, aNeutrons, aMeltingPoint, aBoilingPoint, aGramPerCubicCentimeter, aSets, aR, aG, aB, aA, aRandomData).put(NONMETAL);} |
| 65 | static OreDictMaterial diatomic (int aID, String aNameOreDict, String aSymbol, long aProtonsAndElectrons, long aNeutrons, long aMeltingPoint, long aBoilingPoint, double aGramPerCubicCentimeter, TextureSet[] aSets, long aR, long aG, long aB, long aA, Object... aRandomData) {return nonmetal (aID, aNameOreDict, aSymbol, aProtonsAndElectrons, aNeutrons, aMeltingPoint, aBoilingPoint, aGramPerCubicCentimeter, aSets, aR, aG, aB, aA, aRandomData).put(DIATOMIC_NONMETAL);} |
| 66 | static OreDictMaterial diatomicgas (int aID, String aNameOreDict, String aSymbol, long aProtonsAndElectrons, long aNeutrons, long aMeltingPoint, long aBoilingPoint, double aGramPerCubicCentimeter, TextureSet[] aSets, long aR, long aG, long aB, long aA, Object... aRandomData) {return diatomic (aID, aNameOreDict, aSymbol, aProtonsAndElectrons, aNeutrons, aMeltingPoint, aBoilingPoint, aGramPerCubicCentimeter, aSets, aR, aG, aB, aA, aRandomData).put(GASES);} |
| 67 | static OreDictMaterial polyatomic (int aID, String aNameOreDict, String aSymbol, long aProtonsAndElectrons, long aNeutrons, long aMeltingPoint, long aBoilingPoint, double aGramPerCubicCentimeter, TextureSet[] aSets, long aR, long aG, long aB, long aA, Object... aRandomData) {return nonmetal (aID, aNameOreDict, aSymbol, aProtonsAndElectrons, aNeutrons, aMeltingPoint, aBoilingPoint, aGramPerCubicCentimeter, aSets, aR, aG, aB, aA, aRandomData).put(POLYATOMIC_NONMETAL);} |
no test coverage detected