package gregtech.common.redstonecircuits; import gregtech.api.interfaces.IRedstoneCircuitBlock; import gregtech.api.util.GT_CircuitryBehavior; public class GT_Circuit_BitAnd extends GT_CircuitryBehavior { public GT_Circuit_BitAnd(int aIndex) { super(aIndex); } @Override public void initParameters(int[] aCircuitData, IRedstoneCircuitBlock aRedstoneCircuitBlock) { aCircuitData[0] = 0; aCircuitData[1] = 0; aCircuitData[2] = 0; aCircuitData[3] = 0; } @Override public void validateParameters(int[] aCircuitData, IRedstoneCircuitBlock aRedstoneCircuitBlock) { if (aCircuitData[0] < 0) { aCircuitData[0] = 0; } if (aCircuitData[1] < 0) { aCircuitData[1] = 0; } if (aCircuitData[2] < 0) { aCircuitData[2] = 0; } if (aCircuitData[3] < 0) { aCircuitData[3] = 0; } if (aCircuitData[0] > 1) { aCircuitData[0] = 1; } if (aCircuitData[1] > 1) { aCircuitData[1] = 1; } if (aCircuitData[2] > 1) { aCircuitData[2] = 1; } if (aCircuitData[3] > 1) { aCircuitData[3] = 1; } } @Override public void onTick(int[] aCircuitData, IRedstoneCircuitBlock aRedstoneCircuitBlock) { aRedstoneCircuitBlock.setRedstone((byte) ((getStrongestRedstone(aRedstoneCircuitBlock) & (aCircuitData[0] | aCircuitData[1] << 1 | aCircuitData[2] << 2 | aCircuitData[3] << 3)) != 0 ? 15 : 0), aRedstoneCircuitBlock.getOutputFacing()); } @Override public String getName() { return "Hardcode Bit-AND"; } @Override public String getDescription() { return "( signal & this ) != 0"; } @Override public String getDataDescription(int[] aCircuitData, int aCircuitDataIndex) { return "Bit " + aCircuitDataIndex + ":"; } @Override public boolean displayItemStack(int[] aCircuitData, IRedstoneCircuitBlock aRedstoneCircuitBlock, int aIndex) { return false; } @Override public String getDataDisplay(int[] aCircuitData, int aCircuitDataIndex) { return aCircuitData[aCircuitDataIndex] == 0 ? "OFF" : "ON"; } }