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package gregtech.common.redstonecircuits;
import gregtech.api.interfaces.IRedstoneCircuitBlock;
import gregtech.api.util.GT_CircuitryBehavior;
public class GT_Circuit_BasicLogic extends GT_CircuitryBehavior {
public GT_Circuit_BasicLogic(int aIndex) {
super(aIndex);
}
@Override
public void initParameters(int[] aCircuitData, IRedstoneCircuitBlock aRedstoneCircuitBlock) {
aCircuitData[0] = 0;
}
@Override
public void validateParameters(int[] aCircuitData, IRedstoneCircuitBlock aRedstoneCircuitBlock) {
if (aCircuitData[0] < 0) {
aCircuitData[0] = 0;
}
if (aCircuitData[0] > 13) {
aCircuitData[0] = 13;
}
}
@Override
public void onTick(int[] aCircuitData, IRedstoneCircuitBlock aRedstoneCircuitBlock) {
if (aCircuitData[0] < 2) {
aRedstoneCircuitBlock.setRedstone((byte) (aCircuitData[0] % 2 == (getAnyRedstone(aRedstoneCircuitBlock) ? 0 : 1) ? 15 : 0), aRedstoneCircuitBlock.getOutputFacing());
} else if (aCircuitData[0] < 4) {
aRedstoneCircuitBlock.setRedstone((byte) (aCircuitData[0] % 2 == (getOneRedstone(aRedstoneCircuitBlock) ? 0 : 1) ? 15 : 0), aRedstoneCircuitBlock.getOutputFacing());
} else if (aCircuitData[0] < 6) {
aRedstoneCircuitBlock.setRedstone((byte) (aCircuitData[0] % 2 == (getAllRedstone(aRedstoneCircuitBlock) ? 0 : 1) ? 15 : 0), aRedstoneCircuitBlock.getOutputFacing());
} else if (aCircuitData[0] < 7) {
aRedstoneCircuitBlock.setRedstone((byte) (15 - getStrongestRedstone(aRedstoneCircuitBlock)), aRedstoneCircuitBlock.getOutputFacing());
} else if (aCircuitData[0] < 9) {
aRedstoneCircuitBlock.setRedstone((byte) ((aCircuitData[0] % 2 == 0 ? 15 : 0) ^ (getStrongestRedstone(aRedstoneCircuitBlock) | getWeakestRedstone(aRedstoneCircuitBlock))), aRedstoneCircuitBlock.getOutputFacing());
} else if (aCircuitData[0] < 11) {
aRedstoneCircuitBlock.setRedstone((byte) ((aCircuitData[0] % 2 == 0 ? 15 : 0) ^ getStrongestRedstone(aRedstoneCircuitBlock) ^ getWeakestRedstone(aRedstoneCircuitBlock)), aRedstoneCircuitBlock.getOutputFacing());
} else if (aCircuitData[0] < 13) {
aRedstoneCircuitBlock.setRedstone((byte) ((aCircuitData[0] % 2 == 0 ? 15 : 0) ^ getStrongestRedstone(aRedstoneCircuitBlock) & getWeakestRedstone(aRedstoneCircuitBlock)), aRedstoneCircuitBlock.getOutputFacing());
} else if (aCircuitData[0] < 14) {
aRedstoneCircuitBlock.setRedstone((byte) (getStrongestRedstone(aRedstoneCircuitBlock) ^ 0xF), aRedstoneCircuitBlock.getOutputFacing());
}
}
@Override
public String getName() {
return "Basic Logic";
}
@Override
public String getDescription() {
return "Regular Logic Gates";
}
@Override
public String getDataDescription(int[] aCircuitData, int aCircuitDataIndex) {
if (aCircuitDataIndex == 0) {
switch (aCircuitData[0]) {
case 0:
return "OR";
case 1:
return "NOR";
case 2:
return "XOR";
case 3:
return "XNOR";
case 4:
return "AND";
case 5:
return "NAND";
case 6:
return "INVERT";
case 7:
return "BIT_OR";
case 8:
return "BIT_NOR";
case 9:
return "BIT_XOR";
case 10:
return "BIT_XNOR";
case 11:
return "BIT_AND";
case 12:
return "BIT_NAND";
case 13:
return "BIT_INVERT";
}
}
return "";
}
@Override
public boolean displayItemStack(int[] aCircuitData, IRedstoneCircuitBlock aRedstoneCircuitBlock, int aIndex) {
return false;
}
@Override
public String getDataDisplay(int[] aCircuitData, int aCircuitDataIndex) {
return "";
}
}
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