public final class Util
{
-
- @SuppressWarnings("unchecked")
- public static <T> T[] concat(T[]... arrays)
+
+ @SuppressWarnings("unchecked")
+ public static <T> T[] concat(T[]... arrays)
+ {
+ if (arrays.length == 0)
+ throw new IllegalArgumentException("Cannot concatenate 0 arrays.");
+
+ int length = 0;
+ for (T[] array : arrays)
+ length += array.length;
+
+ T[] newArray = Arrays.copyOf(arrays[0], length);
+ int appendIndex = arrays[0].length;
+ for (int i = 1; i < arrays.length; i++)
{
- if(arrays.length == 0)
- throw new IllegalArgumentException("Cannot concatenate 0 arrays.");
-
- int length = 0;
- for(T[] array : arrays)
- length += array.length;
-
- T[] newArray = Arrays.copyOf(arrays[0], length);
- int appendIndex = arrays[0].length;
- for(int i = 1; i < arrays.length; i++)
- {
- System.arraycopy(arrays[i], 0, newArray, appendIndex, arrays[i].length);
- appendIndex += arrays[i].length;
- }
-
- return newArray;
+ System.arraycopy(arrays[i], 0, newArray, appendIndex, arrays[i].length);
+ appendIndex += arrays[i].length;
}
+ return newArray;
+ }
+
// @SuppressWarnings("unchecked")
// public static <T> T[][] split(T[] array, int... lengths)
// {
//
// return (T[][]) newArray;
// }
-
- public static Bit[] and(Bit[] a, Bit[] b)
- {
- return binBitOp(a, b, (bA, bB) -> Bit.and(bA, bB));
- }
-
- public static Bit[] or(Bit[] a, Bit[] b)
- {
- return binBitOp(a, b, (bA, bB) -> Bit.or(bA, bB));
- }
-
- public static Bit[] xor(Bit[] a, Bit[] b)
- {
- return binBitOp(a, b, (bA, bB) -> Bit.xor(bA, bB));
- }
-
- private static Bit[] binBitOp(Bit[] a, Bit[] b, BitOp op)
- {
- if(a.length != b.length)
- throw new IllegalArgumentException("Bit Arrays were not of equal length.");
- Bit[] out = new Bit[a.length];
- for(int i = 0; i < a.length; i++)
- {
- out[i] = op.execute(a[i], b[i]);
- }
- return out;
- }
-
- public static Bit[] not(Bit[] a)
+
+ public static Bit[] and(Bit[] a, Bit[] b)
+ {
+ return binBitOp(a, b, (bA, bB) -> Bit.and(bA, bB));
+ }
+
+ public static Bit[] or(Bit[] a, Bit[] b)
+ {
+ return binBitOp(a, b, (bA, bB) -> Bit.or(bA, bB));
+ }
+
+ public static Bit[] xor(Bit[] a, Bit[] b)
+ {
+ return binBitOp(a, b, (bA, bB) -> Bit.xor(bA, bB));
+ }
+
+ private static Bit[] binBitOp(Bit[] a, Bit[] b, BitOp op)
+ {
+ if (a.length != b.length)
+ throw new IllegalArgumentException("Bit Arrays were not of equal length.");
+ Bit[] out = new Bit[a.length];
+ for (int i = 0; i < a.length; i++)
{
- Bit[] out = new Bit[a.length];
- for(int i = 0; i < a.length; i++)
- {
- out[i] = a[i].not();
- }
- return out;
+ out[i] = op.execute(a[i], b[i]);
}
-
- interface BitOp
+ return out;
+ }
+
+ public static Bit[] not(Bit[] a)
+ {
+ Bit[] out = new Bit[a.length];
+ for (int i = 0; i < a.length; i++)
{
- Bit execute(Bit a, Bit b);
+ out[i] = a[i].not();
}
+ return out;
+ }
+
+ interface BitOp
+ {
+ Bit execute(Bit a, Bit b);
+ }
}
--- /dev/null
+package era.mi.logic.components;
+
+import era.mi.logic.wires.WireArray;
+import era.mi.logic.wires.WireArray.WireArrayInput;
+import era.mi.logic.wires.WireArrayObserver;
+
+public class Mapper implements WireArrayObserver
+{
+ private int[] inBeginningIndex, outBeginningIndex;
+ private WireArray[] inputs;
+ private WireArrayInput[] outputsI;
+
+ public Mapper(WireArray[] inputs, WireArray[] outputs)
+ {
+ this.inputs = inputs.clone();
+
+ int beginningIndex = 0;
+ for (int i = 0; i < inputs.length; i++)
+ {
+ inBeginningIndex[i] = beginningIndex;
+ beginningIndex += inputs[i].length;
+ inputs[i].addObserver(this);
+ }
+ int inputsLength = beginningIndex;
+ beginningIndex = 0;
+ for (int i = 0; i < outputs.length; i++)
+ {
+ outputsI[i] = outputs[i].createInput();
+ outBeginningIndex[i] = beginningIndex;
+ beginningIndex += outputs[i].length;
+ }
+ if (inputsLength != beginningIndex)
+ throw new IllegalArgumentException("Mapper inputs must add up to the same length as outputs. ("
+ + inputsLength + ", " + beginningIndex + ").");
+ }
+
+ @Override
+ public void update(WireArray initiator)
+ {
+ for (int i = 0; i < inputs.length; i++)
+ {
+ if (inputs[i] == initiator)
+ {
+ int inB = inBeginningIndex[i];
+// int outB = outBeginningIndex TODO
+ }
+ }
+ }
+
+ // binary search
+ private int findLower(int[] sorted, int value)
+ {
+ int a = 0, b = sorted.length;
+ while (a < (b - 1))
+ {
+ int inspect = (a + b) >> 1;
+ if (sorted[inspect] == value)
+ return inspect;
+ if (sorted[inspect] > value)
+ b = inspect;
+ else
+ a = inspect;
+ }
+ return a;
+ }
+}
package era.mi.logic.components;
-import era.mi.logic.Util;
-import era.mi.logic.Bit;
-import era.mi.logic.WireArray;
-import era.mi.logic.WireArrayObserver;
+import era.mi.logic.wires.WireArray;
+import era.mi.logic.wires.WireArray.WireArrayInput;
+import era.mi.logic.wires.WireArrayObserver;
-@Deprecated
public class Merger implements WireArrayObserver
{
- private WireArray out;
- private WireArray[] inputs;
-
- //TODO: General problem with this concept; New inputs coming in at the same time override each other
-
- /**
- *
- * @param union The output of merging n {@link WireArray}s into one. Must have length = a1.length() + a2.length() + ... + an.length().
- * @param inputs The inputs to be merged into the union
- */
- public Merger(WireArray union, WireArray... inputs)
- {
- this.inputs = inputs;
- this.out = union;
-
- int length = 0;
- for(WireArray input : inputs)
- {
- length += input.length();
- input.addObserver(this);
- }
-
- if(length != union.length())
- throw new IllegalArgumentException("The output of merging n WireArrays into one must have length = a1.length() + a2.length() + ... + an.length().");
- }
+ private WireArrayInput outI;
+ private WireArray[] inputs;
+ private int[] beginningIndex;
- protected void compute()
- {
- Bit[][] bits = new Bit[inputs.length][];
- for(int i = 0; i < inputs.length; i++)
- bits[i] = inputs[i].getValues();
- Bit[] newOut = Util.concat(bits);
- out.feedSignals(newOut);
- }
+ /**
+ *
+ * @param union The output of merging n {@link WireArray}s into one. Must have
+ * length = a1.length() + a2.length() + ... + an.length().
+ * @param inputs The inputs to be merged into the union
+ */
+ public Merger(WireArray union, WireArray... inputs)
+ {
+ this.inputs = inputs;
+ this.outI = union.createInput();
+ this.beginningIndex = new int[inputs.length];
- public WireArray getInput(int index)
- {
- return inputs[index];
- }
-
- public WireArray getUnion()
- {
- return out;
- }
-
- @Override
- public void update(WireArray initiator)
+ int length = 0;
+ for (int i = 0; i < inputs.length; i++)
{
- compute(); //No inner delay
+ beginningIndex[i] = length;
+ length += inputs[i].length;
+ inputs[i].addObserver(this);
}
+
+ if (length != union.length)
+ throw new IllegalArgumentException(
+ "The output of merging n WireArrays into one must have length = a1.length() + a2.length() + ... + an.length().");
+ }
+
+ public WireArray getInput(int index)
+ {
+ return inputs[index];
+ }
+
+ public WireArray getUnion()
+ {
+ return outI.owner;
+ }
+
+ @Override
+ public void update(WireArray initiator)
+ {
+ int index = find(initiator);
+ int beginning = beginningIndex[index];
+ outI.feedSignals(beginning, initiator.getValues());
+ }
+
+ private int find(WireArray w)
+ {
+ for (int i = 0; i < inputs.length; i++)
+ if (inputs[i] == w)
+ return i;
+ return -1;
+ }
+
+ public WireArray[] getInputs()
+ {
+ return inputs.clone();
+ }
}
+++ /dev/null
-package era.mi.logic.components;
-
-import era.mi.logic.WireArray;
-import era.mi.logic.WireArrayObserver;
-
-public class Merger2 implements WireArrayObserver
-{
- private WireArray out;
- private WireArray[] inputs;
- private int[] beginningIndex;
-
- /**
- *
- * @param union The output of merging n {@link WireArray}s into one. Must have length = a1.length() + a2.length() + ... + an.length().
- * @param inputs The inputs to be merged into the union
- */
- public Merger2(WireArray union, WireArray... inputs)
- {
- this.inputs = inputs;
- this.out = union;
- this.beginningIndex = new int[inputs.length];
-
- int length = 0;
- for(int i = 0; i < inputs.length; i++)
- {
- beginningIndex[i] = length;
- length += inputs[i].length();
- inputs[i].addObserver(this);
- }
-
- if(length != union.length())
- throw new IllegalArgumentException("The output of merging n WireArrays into one must have length = a1.length() + a2.length() + ... + an.length().");
- }
-
- public WireArray getInput(int index)
- {
- return inputs[index];
- }
-
- public WireArray getUnion()
- {
- return out;
- }
-
- @Override
- public void update(WireArray initiator)
- {
- int index = find(initiator);
- int beginning = beginningIndex[index];
- out.feedSignals(beginning, initiator.getValues());
- }
-
- private int find(WireArray w)
- {
- for(int i = 0; i < inputs.length; i++)
- if(inputs[i] == w)
- return i;
- return -1;
- }
-
- public WireArray getOut()
- {
- return out;
- }
-
- public WireArray[] getInputs()
- {
- return inputs.clone();
- }
-}
package era.mi.logic.components;
-import era.mi.logic.Bit;
import era.mi.logic.wires.WireArray;
+import era.mi.logic.wires.WireArray.WireArrayInput;
/**
- * Models a Multiplexer. A is selected when select bit is 1, B when select bit is 0. Outputs X otherwise.
- * @author Fabian
+ * Models a multiplexer. Takes an arbitrary amount of input {@link WireArray}s, one of which,
+ * as determined by select, is put through to the output.
+ * @author Fabian Stemmler
*
*/
public class Mux extends BasicComponent
{
- private WireArray a, b, out;
private WireArray select;
- private final int size;
-
+ private WireArrayInput outI;
+ private WireArray[] inputs;
+ private final int outputSize;
/**
- * {@link WireArray}s a, b and out must be of uniform length, select
- * @param a Must be of uniform length with b and out.
- * @param b Must be of uniform length with a and out.
- * @param select C
- * @param out Must be of uniform length with a and b.
+ * Input {@link WireArray}s and out must be of uniform length
+ * @param out Must be of uniform length with all inputs.
+ * @param select Indexes the input array which is to be mapped to the output. Must have enough bits
+ * to index all inputs.
+ * @param inputs One of these inputs is mapped to the output, depending on the select bits
*/
- public Mux(int processTime, WireArray a, WireArray b, WireArray select, WireArray out)
+ public Mux(int processTime, WireArray out, WireArray select, WireArray... inputs)
{
super(processTime);
- size = a.length;
- if(b.length != out.length || b.length != size)
- throw new IllegalArgumentException("All MUX wire arrays must be of uniform length!");
- this.a = a;
- a.addObserver(this);
- this.b = b;
- b.addObserver(this);
- this.select = select;
- select.addObserver(this);
- this.out = out;
- }
-
- @Override
- protected void compute()
- {
- WireArray active = b;
- switch(select.getValue())
+ outputSize = out.length;
+
+ this.inputs = inputs.clone();
+ for(int i = 0; i < this.inputs.length; i++)
{
- case ONE:
- active = a;
- case ZERO:
- out.feedSignals(active.getValues());
- break;
- default:
- Bit[] newValues = new Bit[size];
- for(int i = 0; i < size; i++)
- newValues[i] = Bit.X;
- out.feedSignals(newValues);
+ if(inputs[i].length != outputSize)
+ throw new IllegalArgumentException("All MUX wire arrays must be of uniform length!");
+ inputs[i].addObserver(this);
}
+
+ this.select = select;
+ select.addObserver(this);
+
+ int maxInputs = 1 << select.length;
+ if(this.inputs.length > maxInputs)
+ throw new IllegalArgumentException("There are more inputs ("
+ + this.inputs.length + ") to the MUX than supported by "
+ + select.length + " select bits (" + maxInputs + ").");
+
+ outI = out.createInput();
}
-
- public WireArray getA()
- {
- return a;
- }
-
- public WireArray getB()
- {
- return b;
- }
-
+
public WireArray getOut()
{
- return out;
+ return outI.owner;
}
public WireArray getSelect()
{
return select;
}
+
+ @Override
+ public void compute() {
+ int selectValue;
+ if(!select.hasNumericValue() || (selectValue = (int) select.getUnsignedValue()) >= inputs.length)
+ {
+ outI.clearSignals();
+ return;
+ }
+
+ WireArray active = inputs[selectValue];
+ outI.feedSignals(active.getValues());
+ }
}
+++ /dev/null
-package era.mi.logic.components;
-
-import era.mi.logic.Simulation;
-import era.mi.logic.wires.WireArray;
-import era.mi.logic.wires.WireArray.WireArrayInput;
-import era.mi.logic.wires.WireArrayObserver;
-
-/**
- * Models a Multiplexer. A is selected when select bit is 1, B when select bit is 0. Outputs X otherwise.
- * @author Fabian Stemmler
- *
- */
-public class Mux2 implements WireArrayObserver
-{
- private WireArray select;
- private WireArrayInput outI;
- private WireArrayInput[] inputs;
- private final int size;
- private final int processTime;
- private int selected;
-
- /**
- * {@link WireArray}s a, b and out must be of uniform length, select
- * @param out Must be of uniform length with a and b.
- * @param select Indexes the input array which is to be mapped to the output
- * @param inputs One of these inputs is mapped to the output, depending on the select wires
- */
- public Mux2(int processTime, WireArray out, WireArray select, WireArray... inputs)
- {
- this.processTime = processTime;
- size = out.length;
-
- this.inputs = new WireArrayInput[inputs.length];
- for(int i = 0; i < this.inputs.length; i++)
- {
- if(inputs[i].length != size)
- throw new IllegalArgumentException("All MUX wire arrays must be of uniform length!");
- this.inputs[i] = inputs[i].createInput();
- inputs[i].addObserver(this);
- }
-
- this.select = select;
- select.addObserver(this);
- selected = -1;
-
- int maxInputs = 1 << select.length;
- if(this.inputs.length > maxInputs)
- throw new IllegalArgumentException("There are more inputs ("
- + this.inputs.length + ") to the MUX than supported by "
- + select.length + " select bits (" + maxInputs + ").");
-
- outI = out.createInput();
- out.addObserver(this);
- }
-
- public WireArray getOut()
- {
- return outI.owner;
- }
-
- public WireArray getSelect()
- {
- return select;
- }
-
- @Override
- public void update(WireArray initiator) {
- int selectValue;
- if(!select.hasNumericValue() || (selectValue = (int) select.getUnsignedValue()) > size)
- {
- if(initiator == select)
- {
- Simulation.TIMELINE.addEvent((e) -> {
- if(selected != -1)
- {
- inputs[selected].clearSignals();
- selected = -1;
- outI.clearSignals();
- }
- }, processTime);
- }
- return;
- }
-
- WireArrayInput active = inputs[selectValue];
- Simulation.TIMELINE.addEvent((e) -> {
- if(initiator == select)
- {
- if(selected != -1)
- inputs[selected].clearSignals();
- selected = selectValue;
- active.feedSignals(outI.owner.getValues());
- outI.feedSignals(active.owner.getValues());
- }
- else if(initiator == outI.owner)
- active.feedSignals(outI.owner.getValues());
- else if(initiator == active.owner)
- outI.feedSignals(active.owner.getValues());
- }, processTime);
- }
-}
import era.mi.logic.Bit;
import era.mi.logic.wires.WireArray;
+import era.mi.logic.wires.WireArray.WireArrayInput;
import era.mi.logic.wires.WireArrayObserver;
public class Splitter implements WireArrayObserver
{
private WireArray input;
- private WireArray[] outputs;
+ private WireArrayInput[] outputs;
public Splitter(WireArray input, WireArray... outputs)
{
this.input = input;
- this.outputs = outputs;
+ this.outputs = WireArray.extractInputs(outputs);
input.addObserver(this);
int length = 0;
for(WireArray out : outputs)
Bit[] inputBits = input.getValues();
for(int i = 0; i < outputs.length; i++)
{
- Bit[] outputBits = new Bit[outputs[i].length];
- System.arraycopy(inputBits, startIndex, outputBits, 0, outputs[i].length);
+ Bit[] outputBits = new Bit[outputs[i].owner.length];
+ System.arraycopy(inputBits, startIndex, outputBits, 0, outputs[i].owner.length);
outputs[i].feedSignals(outputBits);
- startIndex += outputs[i].length;
+ startIndex += outputs[i].owner.length;
}
}
-
- public WireArray getInput()
- {
- return input;
- }
-
- public WireArray[] getOutputs()
- {
- return outputs.clone();
- }
@Override
public void update(WireArray initiator)
+++ /dev/null
-package era.mi.logic.components;
-
-import era.mi.logic.Bit;
-import era.mi.logic.wires.WireArray;
-import era.mi.logic.wires.WireArray.WireArrayInput;
-
-public class TriState extends BasicComponent{
- WireArray in, enable;
- WireArrayInput outI;
-
- public TriState(int processTime, WireArray in, WireArray out, WireArray enable) {
- super(processTime);
- if(in.length != out.length)
- throw new IllegalArgumentException("Tri-state output must have the same amount of bits as the input. Input: " + in.length + " Output: " + out.length);
- if(enable.length != 1)
- throw new IllegalArgumentException("Tri-state enable must have exactly one bit, not " + enable.length + ".");
- this.in = in;
- in.addObserver(this);
- this.enable = enable;
- enable.addObserver(this);
- outI = out.createInput();
- }
-
- @Override
- protected void compute()
- {
- if(enable.getValue() == Bit.ONE)
- outI.feedSignals(in.getValues());
- else
- outI.clearSignals();
- }
-
-}
--- /dev/null
+package era.mi.logic.components;
+
+import era.mi.logic.Bit;
+import era.mi.logic.wires.WireArray;
+import era.mi.logic.wires.WireArray.WireArrayInput;
+
+public class TriStateBuffer extends BasicComponent{
+ WireArray in, enable;
+ WireArrayInput outI;
+
+ public TriStateBuffer(int processTime, WireArray in, WireArray out, WireArray enable) {
+ super(processTime);
+ if(in.length != out.length)
+ throw new IllegalArgumentException("Tri-state output must have the same amount of bits as the input. Input: " + in.length + " Output: " + out.length);
+ if(enable.length != 1)
+ throw new IllegalArgumentException("Tri-state enable must have exactly one bit, not " + enable.length + ".");
+ this.in = in;
+ in.addObserver(this);
+ this.enable = enable;
+ enable.addObserver(this);
+ outI = out.createInput();
+ }
+
+ @Override
+ protected void compute()
+ {
+ if(enable.getValue() == Bit.ONE)
+ outI.feedSignals(in.getValues());
+ else
+ outI.clearSignals();
+ }
+
+}
import static org.junit.jupiter.api.Assertions.*;
import java.util.Arrays;
-import java.util.function.LongConsumer;
import org.junit.jupiter.api.Test;
import era.mi.logic.Bit;
import era.mi.logic.Simulation;
-import era.mi.logic.components.Mux2;
+import era.mi.logic.components.Merger;
+import era.mi.logic.components.Mux;
+import era.mi.logic.components.Splitter;
+import era.mi.logic.components.TriStateBuffer;
import era.mi.logic.components.gates.AndGate;
import era.mi.logic.components.gates.NotGate;
import era.mi.logic.components.gates.OrGate;
class ComponentTest
{
-// @Test
-// void circuitExampleTest()
-// {
-// Simulation.TIMELINE.reset();
-// WireArray a = new WireArray(1, 1), b = new WireArray(1, 1), c = new WireArray(1, 10), d = new WireArray(2, 1), e = new WireArray(1, 1),
-// f = new WireArray(1, 1), g = new WireArray(1, 1), h = new WireArray(2, 1), i = new WireArray(2, 1), j = new WireArray(1, 1), k = new WireArray(1, 1);
-// new AndGate(1, a, b, f);
-// new NotGate(1, f, g);
-// new Merger2(h, c, g);
-// new Mux(1, h, d, e, i);
-// new Splitter(i, k, j);
-//
-// a.createInput().feedSignals(Bit.ZERO);
-// b.createInput().feedSignals(Bit.ONE);
-// c.createInput().feedSignals(Bit.ZERO);
-// d.createInput().feedSignals(Bit.ONE, Bit.ONE);
-// e.createInput().feedSignals(Bit.ONE);
-//
-// while(Simulation.TIMELINE.hasNext())
-// {
-// Simulation.TIMELINE.executeNext();
-// }
-//
-// assertEquals(Simulation.TIMELINE.getSimulationTime(), 14);
-// assertEquals(Bit.ONE, j.getValue());
-// assertEquals(Bit.ZERO, k.getValue());
-// }
-//
-// @Test
-// void splitterTest()
-// {
-// Simulation.TIMELINE.reset();
-// WireArray a = new WireArray(3, 1), b = new WireArray(2, 1), c = new WireArray(3, 1), in = new WireArray(8, 1);
-// in.createInput().feedSignals(Bit.ZERO, Bit.ONE, Bit.ZERO, Bit.ONE, Bit.ZERO,Bit.ONE, Bit.ZERO, Bit.ONE);
-// new Splitter(in, a, b, c);
-//
-// while(Simulation.TIMELINE.hasNext())
-// {
-// Simulation.TIMELINE.executeNext();
-// }
-//
-// assertTrue(Arrays.equals(a.getValues(), new Bit[] { Bit.ZERO, Bit.ONE, Bit.ZERO }));
-// assertTrue(Arrays.equals(b.getValues(), new Bit[] { Bit.ONE, Bit.ZERO }));
-// assertTrue(Arrays.equals(c.getValues(), new Bit[] { Bit.ONE, Bit.ZERO, Bit.ONE }));
-// }
-//
-// @Test
-// void mergerTest()
-// {
-// Simulation.TIMELINE.reset();
-// WireArray a = new WireArray(3, 1), b = new WireArray(2, 1), c = new WireArray(3, 1), out = new WireArray(8, 1);
-// a.createInput().feedSignals(Bit.ZERO, Bit.ONE, Bit.ZERO);
-// b.createInput().feedSignals(Bit.ONE, Bit.ZERO);
-// c.createInput().feedSignals(Bit.ONE, Bit.ZERO, Bit.ONE);
-//
-// new Merger2(out, a, b, c);
-//
-// while(Simulation.TIMELINE.hasNext())
-// {
-// Simulation.TIMELINE.executeNext();
-// }
-//
-// assertTrue(Arrays.equals(out.getValues(), new Bit[] { Bit.ZERO, Bit.ONE, Bit.ZERO, Bit.ONE, Bit.ZERO, Bit.ONE, Bit.ZERO, Bit.ONE }));
-// }
-
@Test
- void muxTest()
+ void circuitExampleTest()
{
Simulation.TIMELINE.reset();
- WireArray a = new WireArray(1, 3), b = new WireArray(1, 2), select = new WireArray(1, 1), out = new WireArray(1, 1);
- WireArrayInput selectIn = select.createInput();
+ WireArray a = new WireArray(1, 1), b = new WireArray(1, 1), c = new WireArray(1, 10), d = new WireArray(2, 1), e = new WireArray(1, 1),
+ f = new WireArray(1, 1), g = new WireArray(1, 1), h = new WireArray(2, 1), i = new WireArray(2, 1), j = new WireArray(1, 1), k = new WireArray(1, 1);
+ new AndGate(1, a, b, f);
+ new NotGate(1, f, g);
+ new Merger(h, c, g);
+ new Mux(1, i, e, h, d);
+ new Splitter(i, k, j);
- selectIn.feedSignals(Bit.ZERO);
- a.createInput().feedSignals(Bit.ONE);
- b.createInput().feedSignals(Bit.ZERO);
+ a.createInput().feedSignals(Bit.ZERO);
+ b.createInput().feedSignals(Bit.ONE);
+ c.createInput().feedSignals(Bit.ZERO);
+ d.createInput().feedSignals(Bit.ONE, Bit.ONE);
+ e.createInput().feedSignals(Bit.ZERO);
- new Mux2(1, out, select, a, b);
- assertEquals(Bit.Z, out.getValue());
- while(Simulation.TIMELINE.hasNext())
- {
- Simulation.TIMELINE.executeNext();
- }
-
- assertEquals(Bit.ONE, out.getValue());
- selectIn.feedSignals(Bit.ONE);
while(Simulation.TIMELINE.hasNext())
{
Simulation.TIMELINE.executeNext();
}
- assertEquals(out.getValue(), Bit.ZERO);
+ assertEquals(Bit.ONE, j.getValue());
+ assertEquals(Bit.ZERO, k.getValue());
}
- @Test
- void andTest()
+ @Test
+ void splitterTest()
+ {
+ Simulation.TIMELINE.reset();
+ WireArray a = new WireArray(3, 1), b = new WireArray(2, 1), c = new WireArray(3, 1), in = new WireArray(8, 1);
+ in.createInput().feedSignals(Bit.ZERO, Bit.ONE, Bit.ZERO, Bit.ONE, Bit.ZERO, Bit.ONE, Bit.ZERO, Bit.ONE);
+ new Splitter(in, a, b, c);
+
+ while (Simulation.TIMELINE.hasNext())
{
- Simulation.TIMELINE.reset();
- AndGate gate = new AndGate(1, new WireArray(4, 1), new WireArray(4, 1), new WireArray(4, 1));
- gate.getA().createInput().feedSignals(Bit.ONE, Bit.ONE, Bit.ZERO, Bit.ZERO);
- gate.getB().createInput().feedSignals(Bit.ZERO, Bit.ONE, Bit.ZERO, Bit.ONE);
-
-
- while(Simulation.TIMELINE.hasNext())
- {
- Simulation.TIMELINE.executeNext();
- }
- assertTrue(Arrays.equals(gate.getOut().getValues(), new Bit[] { Bit.ZERO, Bit.ONE, Bit.ZERO, Bit.ZERO }));
+ Simulation.TIMELINE.executeNext();
}
-
- @Test
- void orTest()
+
+ assertTrue(Arrays.equals(a.getValues(), new Bit[] { Bit.ZERO, Bit.ONE, Bit.ZERO }));
+ assertTrue(Arrays.equals(b.getValues(), new Bit[] { Bit.ONE, Bit.ZERO }));
+ assertTrue(Arrays.equals(c.getValues(), new Bit[] { Bit.ONE, Bit.ZERO, Bit.ONE }));
+ }
+
+ @Test
+ void mergerTest()
+ {
+ Simulation.TIMELINE.reset();
+ WireArray a = new WireArray(3, 1), b = new WireArray(2, 1), c = new WireArray(3, 1), out = new WireArray(8, 1);
+ a.createInput().feedSignals(Bit.ZERO, Bit.ONE, Bit.ZERO);
+ b.createInput().feedSignals(Bit.ONE, Bit.ZERO);
+ c.createInput().feedSignals(Bit.ONE, Bit.ZERO, Bit.ONE);
+
+ new Merger(out, a, b, c);
+
+ while (Simulation.TIMELINE.hasNext())
{
- Simulation.TIMELINE.reset();
- OrGate gate = new OrGate(1, new WireArray(4, 1), new WireArray(4, 1), new WireArray(4, 1));
- gate.getA().createInput().feedSignals(Bit.ONE, Bit.ONE, Bit.ZERO, Bit.ZERO);
- gate.getB().createInput().feedSignals(Bit.ZERO, Bit.ONE, Bit.ZERO, Bit.ONE);
-
- while(Simulation.TIMELINE.hasNext())
- {
- Simulation.TIMELINE.executeNext();
- }
-
- assertTrue(Arrays.equals(gate.getOut().getValues(), new Bit[] { Bit.ONE, Bit.ONE, Bit.ZERO, Bit.ONE }));
+ Simulation.TIMELINE.executeNext();
}
-
- @Test
- void rsLatchCircuitTest()
+
+ assertTrue(Arrays.equals(out.getValues(),
+ new Bit[] { Bit.ZERO, Bit.ONE, Bit.ZERO, Bit.ONE, Bit.ZERO, Bit.ONE, Bit.ZERO, Bit.ONE }));
+ }
+
+ @Test
+ void triStateBufferTest()
+ {
+ WireArray a = new WireArray(1, 1), b = new WireArray(1, 1), en = new WireArray(1, 1),
+ notEn = new WireArray(1, 1);
+ new NotGate(1, en, notEn);
+ new TriStateBuffer(1, a, b, en);
+ new TriStateBuffer(1, b, a, notEn);
+
+ WireArrayInput enI = en.createInput(), aI = a.createInput(), bI = b.createInput();
+ enI.feedSignals(Bit.ONE);
+ aI.feedSignals(Bit.ONE);
+
+ while (Simulation.TIMELINE.hasNext())
{
- Simulation.TIMELINE.reset();
- WireArray r = new WireArray(1, 1), s = new WireArray(1, 1), t1 = new WireArray(1, 15), t2 = new WireArray(1, 1), q = new WireArray(1, 1),
- nq = new WireArray(1, 1);
-
- new OrGate(1, r, nq, t2);
- new OrGate(1, s, q, t1);
- new NotGate(1, t2, q);
- new NotGate(1, t1, nq);
-
- WireArrayInput sIn = s.createInput(), rIn = r.createInput();
-
- sIn.feedSignals(Bit.ONE);
- rIn.feedSignals(Bit.ZERO);
-
- while(Simulation.TIMELINE.hasNext())
- {
- Simulation.TIMELINE.executeNext();
- }
-
- assertEquals(q.getValue(), Bit.ONE);
- assertEquals(nq.getValue(), Bit.ZERO);
-
- sIn.feedSignals(Bit.ZERO);
-
- while(Simulation.TIMELINE.hasNext())
- {
- Simulation.TIMELINE.executeNext();
- }
-
- assertEquals(q.getValue(), Bit.ONE);
- assertEquals(nq.getValue(), Bit.ZERO);
-
- rIn.feedSignals(Bit.ONE);
-
- while(Simulation.TIMELINE.hasNext())
- {
- Simulation.TIMELINE.executeNext();
- }
-
- assertEquals(q.getValue(), Bit.ZERO);
- assertEquals(nq.getValue(), Bit.ONE);
+ Simulation.TIMELINE.executeNext();
}
-
- @Test
- void numericValueTest()
+
+ assertEquals(Bit.ONE, b.getValue());
+
+ bI.feedSignals(Bit.ZERO);
+
+ while (Simulation.TIMELINE.hasNext())
{
- Simulation.TIMELINE.reset();
-
- WireArray a = new WireArray(4, 1);
- a.createInput().feedSignals(Bit.ONE, Bit.ONE, Bit.ONE, Bit.ONE);
-
- while(Simulation.TIMELINE.hasNext())
- {
- Simulation.TIMELINE.executeNext();
- }
-
- assertEquals(a.getUnsignedValue(), 15);
- assertEquals(a.getSignedValue(), -1);
+ Simulation.TIMELINE.executeNext();
}
-
- @Test
- void multipleInputs()
+
+ assertEquals(Bit.X, b.getValue());
+ assertEquals(Bit.ONE, a.getValue());
+
+ aI.clearSignals();
+ enI.feedSignals(Bit.ZERO);
+
+ while (Simulation.TIMELINE.hasNext())
{
- Simulation.TIMELINE.reset();
- WireArray w = new WireArray(2, 1);
- WireArrayInput wI1 = w.createInput(), wI2 = w.createInput();
- wI1.feedSignals(Bit.ONE, Bit.Z);
- wI2.feedSignals(Bit.Z, Bit.X);
- while(Simulation.TIMELINE.hasNext())
- {
- Simulation.TIMELINE.executeNext();
- }
- assertTrue(Arrays.equals(w.getValues(), new Bit[] { Bit.ONE, Bit.X }));
-
- wI2.feedSignals(Bit.ZERO, Bit.Z);
- while(Simulation.TIMELINE.hasNext())
- {
- Simulation.TIMELINE.executeNext();
- }
- assertTrue(Arrays.equals(w.getValues(), new Bit[] { Bit.X, Bit.Z }));
-
- wI2.feedSignals(Bit.Z, Bit.Z);
- while(Simulation.TIMELINE.hasNext())
- {
- Simulation.TIMELINE.executeNext();
- }
- assertTrue(Arrays.equals(w.getValues(), new Bit[] { Bit.ONE, Bit.Z }));
-
- wI2.feedSignals(Bit.ONE, Bit.Z);
- w.addObserver((i) -> fail("WireArray notified observer, although value did not change."));
- while(Simulation.TIMELINE.hasNext())
- {
- Simulation.TIMELINE.executeNext();
- }
- assertTrue(Arrays.equals(w.getValues(), new Bit[] { Bit.ONE, Bit.Z }));
+ Simulation.TIMELINE.executeNext();
}
-
- @Test
- void wireConnections()
+
+ assertEquals(Bit.ZERO, a.getValue());
+
+ }
+
+ @Test
+ void muxTest()
+ {
+ Simulation.TIMELINE.reset();
+ WireArray a = new WireArray(4, 3), b = new WireArray(4, 6), c = new WireArray(4, 4),
+ select = new WireArray(2, 5), out = new WireArray(4, 1);
+ WireArrayInput selectIn = select.createInput();
+
+ selectIn.feedSignals(Bit.ZERO, Bit.ZERO);
+ a.createInput().feedSignals(Bit.ONE, Bit.ZERO, Bit.ONE, Bit.ZERO);
+ c.createInput().feedSignals(Bit.ZERO, Bit.ONE, Bit.ZERO, Bit.ONE);
+
+ new Mux(1, out, select, a, b, c);
+ while (Simulation.TIMELINE.hasNext())
{
- // Nur ein Experiment, was über mehrere 'passive' Bausteine hinweg passieren würde
-
- Simulation.TIMELINE.reset();
+ Simulation.TIMELINE.executeNext();
+ }
- WireArray a = new WireArray(1, 2);
- WireArray b = new WireArray(1, 2);
- WireArray c = new WireArray(1, 2);
- WireArrayInput aI = a.createInput();
- WireArrayInput bI = b.createInput();
- WireArrayInput cI = c.createInput();
-
- TestBitDisplay test = new TestBitDisplay(c);
- LongConsumer print = time -> System.out.format("Time %2d\n %s\n %s\n %s\n", time, a, b, c);
-
- cI.feedSignals(Bit.ONE);
- test.assertAfterSimulationIs(print, Bit.ONE);
-
- cI.feedSignals(Bit.X);
- test.assertAfterSimulationIs(print, Bit.X);
-
- cI.feedSignals(Bit.X);
- cI.feedSignals(Bit.Z);
- test.assertAfterSimulationIs(print, Bit.Z);
-
- Connector c1 = new Connector(b, c);
- test.assertAfterSimulationIs(print, Bit.Z);
- System.out.println("ONE");
- bI.feedSignals(Bit.ONE);
- test.assertAfterSimulationIs(print, Bit.ONE);
- System.out.println("ZERO");
- bI.feedSignals(Bit.ZERO);
- test.assertAfterSimulationIs(print, Bit.ZERO);
- System.out.println("Z");
- bI.feedSignals(Bit.Z);
- test.assertAfterSimulationIs(Bit.Z);
+ assertTrue(Arrays.equals(new Bit[] { Bit.ONE, Bit.ZERO, Bit.ONE, Bit.ZERO }, out.getValues()));
+ selectIn.feedSignals(Bit.ZERO, Bit.ONE);
+ while (Simulation.TIMELINE.hasNext())
+ {
+ Simulation.TIMELINE.executeNext();
}
- private static void assertBitArrayEquals(Bit[] actual, Bit... expected)
+ assertTrue(Arrays.equals(new Bit[] { Bit.ZERO, Bit.ONE, Bit.ZERO, Bit.ONE }, out.getValues()));
+
+ selectIn.feedSignals(Bit.ONE, Bit.ONE);
+ while (Simulation.TIMELINE.hasNext())
{
- assertArrayEquals(expected, actual);
+ Simulation.TIMELINE.executeNext();
}
+
+ assertTrue(Arrays.equals(new Bit[] { Bit.Z, Bit.Z, Bit.Z, Bit.Z }, out.getValues()));
+
+ }
+
+ @Test
+ void andTest()
+ {
+ Simulation.TIMELINE.reset();
+ AndGate gate = new AndGate(1, new WireArray(4, 1), new WireArray(4, 1), new WireArray(4, 1));
+ gate.getA().createInput().feedSignals(Bit.ONE, Bit.ONE, Bit.ZERO, Bit.ZERO);
+ gate.getB().createInput().feedSignals(Bit.ZERO, Bit.ONE, Bit.ZERO, Bit.ONE);
+
+ while (Simulation.TIMELINE.hasNext())
+ {
+ Simulation.TIMELINE.executeNext();
+ }
+ assertTrue(Arrays.equals(gate.getOut().getValues(), new Bit[] { Bit.ZERO, Bit.ONE, Bit.ZERO, Bit.ZERO }));
+ }
+
+ @Test
+ void orTest()
+ {
+ Simulation.TIMELINE.reset();
+ OrGate gate = new OrGate(1, new WireArray(4, 1), new WireArray(4, 1), new WireArray(4, 1));
+ gate.getA().createInput().feedSignals(Bit.ONE, Bit.ONE, Bit.ZERO, Bit.ZERO);
+ gate.getB().createInput().feedSignals(Bit.ZERO, Bit.ONE, Bit.ZERO, Bit.ONE);
+
+ while (Simulation.TIMELINE.hasNext())
+ {
+ Simulation.TIMELINE.executeNext();
+ }
+
+ assertTrue(Arrays.equals(gate.getOut().getValues(), new Bit[] { Bit.ONE, Bit.ONE, Bit.ZERO, Bit.ONE }));
+ }
+
+ @Test
+ void rsLatchCircuitTest()
+ {
+ Simulation.TIMELINE.reset();
+ WireArray r = new WireArray(1, 1), s = new WireArray(1, 1), t1 = new WireArray(1, 15), t2 = new WireArray(1, 1),
+ q = new WireArray(1, 1), nq = new WireArray(1, 1);
+
+ new OrGate(1, r, nq, t2);
+ new OrGate(1, s, q, t1);
+ new NotGate(1, t2, q);
+ new NotGate(1, t1, nq);
+
+ WireArrayInput sIn = s.createInput(), rIn = r.createInput();
+
+ sIn.feedSignals(Bit.ONE);
+ rIn.feedSignals(Bit.ZERO);
+
+ while (Simulation.TIMELINE.hasNext())
+ {
+ Simulation.TIMELINE.executeNext();
+ }
+
+ assertEquals(q.getValue(), Bit.ONE);
+ assertEquals(nq.getValue(), Bit.ZERO);
+
+ sIn.feedSignals(Bit.ZERO);
+
+ while (Simulation.TIMELINE.hasNext())
+ {
+ Simulation.TIMELINE.executeNext();
+ }
+
+ assertEquals(q.getValue(), Bit.ONE);
+ assertEquals(nq.getValue(), Bit.ZERO);
+
+ rIn.feedSignals(Bit.ONE);
+
+ while (Simulation.TIMELINE.hasNext())
+ {
+ Simulation.TIMELINE.executeNext();
+ }
+
+ assertEquals(q.getValue(), Bit.ZERO);
+ assertEquals(nq.getValue(), Bit.ONE);
+ }
+
+ @Test
+ void numericValueTest()
+ {
+ Simulation.TIMELINE.reset();
+
+ WireArray a = new WireArray(4, 1);
+ a.createInput().feedSignals(Bit.ONE, Bit.ONE, Bit.ONE, Bit.ONE);
+
+ while (Simulation.TIMELINE.hasNext())
+ {
+ Simulation.TIMELINE.executeNext();
+ }
+
+ assertEquals(a.getUnsignedValue(), 15);
+ assertEquals(a.getSignedValue(), -1);
+ }
+
+ @Test
+ void multipleInputs()
+ {
+ Simulation.TIMELINE.reset();
+ WireArray w = new WireArray(2, 1);
+ WireArrayInput wI1 = w.createInput(), wI2 = w.createInput();
+ wI1.feedSignals(Bit.ONE, Bit.Z);
+ wI2.feedSignals(Bit.Z, Bit.X);
+ while (Simulation.TIMELINE.hasNext())
+ {
+ Simulation.TIMELINE.executeNext();
+ }
+ assertTrue(Arrays.equals(w.getValues(), new Bit[] { Bit.ONE, Bit.X }));
+
+ wI2.feedSignals(Bit.ZERO, Bit.Z);
+ while (Simulation.TIMELINE.hasNext())
+ {
+ Simulation.TIMELINE.executeNext();
+ }
+ assertTrue(Arrays.equals(w.getValues(), new Bit[] { Bit.X, Bit.Z }));
+
+ wI2.feedSignals(Bit.Z, Bit.Z);
+ while (Simulation.TIMELINE.hasNext())
+ {
+ Simulation.TIMELINE.executeNext();
+ }
+ assertTrue(Arrays.equals(w.getValues(), new Bit[] { Bit.ONE, Bit.Z }));
+
+ wI2.feedSignals(Bit.ONE, Bit.Z);
+ w.addObserver((i) -> fail("WireArray notified observer, although value did not change."));
+ while (Simulation.TIMELINE.hasNext())
+ {
+ Simulation.TIMELINE.executeNext();
+ }
+ assertTrue(Arrays.equals(w.getValues(), new Bit[] { Bit.ONE, Bit.Z }));
+ }
+
+// @Test
+// void wireConnections()
+// {
+// // Nur ein Experiment, was über mehrere 'passive' Bausteine hinweg passieren würde
+//
+// Simulation.TIMELINE.reset();
+//
+// WireArray a = new WireArray(1, 2);
+// WireArray b = new WireArray(1, 2);
+// WireArray c = new WireArray(1, 2);
+// WireArrayInput aI = a.createInput();
+// WireArrayInput bI = b.createInput();
+// WireArrayInput cI = c.createInput();
+//
+// TestBitDisplay test = new TestBitDisplay(c);
+// LongConsumer print = time -> System.out.format("Time %2d\n %s\n %s\n %s\n", time, a, b, c);
+//
+// cI.feedSignals(Bit.ONE);
+// test.assertAfterSimulationIs(print, Bit.ONE);
+//
+// cI.feedSignals(Bit.X);
+// test.assertAfterSimulationIs(print, Bit.X);
+//
+// cI.feedSignals(Bit.X);
+// cI.feedSignals(Bit.Z);
+// test.assertAfterSimulationIs(print, Bit.Z);
+//
+// Connector c1 = new Connector(b, c);
+// test.assertAfterSimulationIs(print, Bit.Z);
+// System.out.println("ONE");
+// bI.feedSignals(Bit.ONE);
+// test.assertAfterSimulationIs(print, Bit.ONE);
+// System.out.println("ZERO");
+// bI.feedSignals(Bit.ZERO);
+// test.assertAfterSimulationIs(print, Bit.ZERO);
+// System.out.println("Z");
+// bI.feedSignals(Bit.Z);
+// test.assertAfterSimulationIs(Bit.Z);
+// }
+
+ private static void assertBitArrayEquals(Bit[] actual, Bit... expected)
+ {
+ assertArrayEquals(expected, actual);
+ }
}
/**
* Represents an array of wires that can store n bits of information.
+ *
* @author Fabian Stemmler
*
*/
public class WireArray
{
- private Bit[] values;
- public final int travelTime;
- private List<WireArrayObserver> observers = new ArrayList<WireArrayObserver>();
- public final int length;
- private List<WireArrayInput> inputs = new ArrayList<WireArrayInput>();
-
- public WireArray(int length, int travelTime)
+ private Bit[] values;
+ public final int travelTime;
+ private List<WireArrayObserver> observers = new ArrayList<WireArrayObserver>();
+ public final int length;
+ private List<WireArrayInput> inputs = new ArrayList<WireArrayInput>();
+
+ public WireArray(int length, int travelTime)
+ {
+ if (length < 1)
+ throw new IllegalArgumentException("Tried to create an array of wires with length " + length
+ + ", but a length of less than 1 makes no sense.");
+ this.length = length;
+ this.travelTime = travelTime;
+ initValues();
+ }
+
+ private void initValues()
+ {
+ values = new Bit[length];
+ for (int i = 0; i < length; i++)
+ values[i] = Bit.Z;
+ }
+
+ private void recalculateSingleInput()
+ {
+ WireArrayInput input = inputs.get(0);
+ if (!Arrays.equals(input.getValues(), values))
{
- if(length < 1)
- throw new IllegalArgumentException("Tried to create an array of wires with length " + length + ", but a length of less than 1 makes no sense.");
- this.length = length;
- this.travelTime = travelTime;
- initValues();
+ System.arraycopy(input.getValues(), 0, values, 0, length);
+ notifyObservers();
}
-
- private void initValues()
+ }
+
+ private void recalculateMultipleInputs()
+ {
+ Iterator<WireArrayInput> it = inputs.iterator();
+ Bit[] newValues = it.next().values.clone();
+
+ while (it.hasNext())
{
- values = new Bit[length];
- for(int i = 0; i < length; i++)
- values[i] = Bit.Z;
+ WireArrayInput input = it.next();
+ Bit[] bits = input.getValues();
+ for (int i = 0; i < length; i++)
+ {
+ if (Bit.Z.equals(bits[i]) || newValues[i].equals(bits[i]))
+ continue;
+ else if (Bit.Z.equals(newValues[i]))
+ newValues[i] = bits[i];
+ else
+ newValues[i] = Bit.X;
+ }
}
-
- private void recalculateSingleInput()
+
+ if (!Arrays.equals(newValues, values))
{
- WireArrayInput input = inputs.get(0);
- if(!Arrays.equals(input.getValues(), values))
- {
- System.arraycopy(input.getValues(), 0, values, 0, length);
- notifyObservers();
- }
+ notifyObservers();
+ values = newValues;
}
-
- private void recalculateMultipleInputs()
+ }
+
+ private void recalculate()
+ {
+ switch (inputs.size())
{
- Iterator<WireArrayInput> it = inputs.iterator();
- Bit[] newValues = it.next().values.clone();
-
- while(it.hasNext())
- {
- WireArrayInput input = it.next();
- Bit[] bits = input.getValues();
- for(int i = 0; i < length; i++)
- {
- if(Bit.Z.equals(bits[i]) || newValues[i].equals(bits[i]))
- continue;
- else if(Bit.Z.equals(newValues[i]))
- newValues[i] = bits[i];
- else
- newValues[i] = Bit.X;
- }
- }
-
- if(!Arrays.equals(newValues, values))
- {
- notifyObservers();
- values = newValues;
- }
+ case 0:
+ return;
+ case 1:
+ recalculateSingleInput();
+ break;
+ default:
+ recalculateMultipleInputs();
}
+ }
- private void recalculate()
+ /**
+ * The WireArray is interpreted as an unsigned integer with n bits.
+ *
+ * @return <code>true</code> if all bits are either <code>Bit.ONE</code> or
+ * <code>Bit.ZERO</code> (they do not all have to have the same value),
+ * not <code>Bit.X</code> or <code>Bit.Z</code>. <code>false</code> is
+ * returned otherwise.
+ *
+ * @author Fabian Stemmler
+ */
+ public boolean hasNumericValue()
+ {
+ for (Bit b : values)
{
- switch(inputs.size())
- {
- case 0:
- return;
- case 1:
- recalculateSingleInput();
- break;
- default:
- recalculateMultipleInputs();
- }
+ if (b != Bit.ZERO && b != Bit.ONE)
+ return false;
}
-
- /**
- * The WireArray is interpreted as an unsigned integer with n bits.
- * @return <code>true</code> if all bits are either <code>Bit.ONE</code> or <code>Bit.ZERO</code> (they do not all have to have the same value), not <code>Bit.X</code> or <code>Bit.Z</code>. <code>false</code> is returned otherwise.
- *
- * @author Fabian Stemmler
- */
- public boolean hasNumericValue()
+ return true;
+ }
+
+ /**
+ * The WireArray is interpreted as an unsigned integer with n bits.
+ *
+ * @return The unsigned value of the {@link WireArray}'s bits, where value 0
+ * corresponds with 2^0, value 1 is 2^1 and so on.
+ *
+ * @author Fabian Stemmler
+ */
+ public long getUnsignedValue()
+ {
+ long val = 0;
+ long mask = 1;
+ for (int i = 0; i < length; i++)
{
- for(Bit b : values)
- {
- if(b != Bit.ZERO && b != Bit.ONE)
- return false;
- }
- return true;
+ switch (values[i])
+ {
+ default:
+ case Z:
+ case X:
+ return 0; // TODO: Proper handling for getUnsignedValue(), if not all bits are 1 or 0;
+ // Random number?
+ case ONE:
+ val |= mask;
+ break;
+ case ZERO:
+ }
+ mask = mask << 1;
}
-
- /**
- * The WireArray is interpreted as an unsigned integer with n bits.
- * @return The unsigned value of the {@link WireArray}'s bits, where value 0 corresponds with 2^0, value 1 is 2^1 and so on.
- *
- * @author Fabian Stemmler
- */
- public long getUnsignedValue()
+ return val;
+ }
+
+ /**
+ * The WireArray is interpreted as a signed integer with n bits.
+ *
+ * @return The signed value of the {@link WireArray}'s bits, where value 0
+ * corresponds with 2^0, value 1 is 2^1 and so on.
+ *
+ * @author Fabian Stemmler
+ */
+ public long getSignedValue()
+ {
+ long val = getUnsignedValue();
+ long mask = 1 << (length - 1);
+ if ((mask & val) != 0)
{
- long val = 0;
- long mask = 1;
- for(int i = 0; i < length; i++)
- {
- switch(values[i])
- {
- default:
- case Z:
- case X:
- return 0; //TODO: Proper handling for getUnsignedValue(), if not all bits are 1 or 0; Random number?
- case ONE:
- val |= mask;
- break;
- case ZERO:
- }
- mask = mask << 1;
- }
- return val;
+ int shifts = 64 - length;
+ return (val << shifts) >> shifts;
}
-
- /**
- * The WireArray is interpreted as a signed integer with n bits.
- * @return The signed value of the {@link WireArray}'s bits, where value 0 corresponds with 2^0, value 1 is 2^1 and so on.
- *
- * @author Fabian Stemmler
- */
- public long getSignedValue()
+ return val;
+ }
+
+ /**
+ * Included for convenient use on {@link WireArray}s of length 1.
+ *
+ * @return The value of bit 0.
+ *
+ * @author Fabian Stemmler
+ */
+ public Bit getValue()
+ {
+ return getValue(0);
+ }
+
+ /**
+ *
+ * @param index Index of the requested bit.
+ * @return The value of the indexed bit.
+ *
+ * @author Fabian Stemmler
+ */
+ public Bit getValue(int index)
+ {
+ return values[index];
+ }
+
+ public Bit[] getValues(int start, int end)
+ {
+ int length = end - start;
+ Bit[] bits = new Bit[length];
+ System.arraycopy(values, start, bits, 0, length);
+ return bits;
+ }
+
+ /**
+ * @return An array of length n containing the values of the n bits in the
+ * {@link WireArray}. Can be safely modified.
+ *
+ * @author Fabian Stemmler
+ */
+ public Bit[] getValues()
+ {
+ return values.clone();
+ }
+
+ /**
+ * Adds an {@link WireArrayObserver}, who will be notified when the value of the
+ * {@link WireArray} is updated.
+ *
+ * @param ob The {@link WireArrayObserver} to be notified of changes.
+ * @return true if the given {@link WireArrayObserver} was not already
+ * registered, false otherwise
+ *
+ * @author Fabian Stemmler
+ */
+ public boolean addObserver(WireArrayObserver ob)
+ {
+ return observers.add(ob);
+ }
+
+ private void notifyObservers()
+ {
+ for (WireArrayObserver o : observers)
+ o.update(this);
+ }
+
+ /**
+ * Create and register a {@link WireArrayInput} object, which is tied to this
+ * {@link WireArray}.
+ */
+ public WireArrayInput createInput()
+ {
+ return new WireArrayInput(this);
+ }
+
+ private void registerInput(WireArrayInput toRegister)
+ {
+ inputs.add(toRegister);
+ }
+
+ /**
+ * A {@link WireArrayInput} feeds a constant signal into the {@link WireArray}
+ * it is tied to. The combination of all inputs determines the
+ * {@link WireArray}s final value. X dominates all other inputs Z does not
+ * affect the final value, unless there are no other inputs than Z 0 and 1 turn
+ * into X when they are mixed
+ *
+ * @author Fabian Stemmler
+ */
+ public class WireArrayInput
+ {
+ public final WireArray owner;
+ private Bit[] values;
+
+ private WireArrayInput(WireArray owner)
{
- long val = getUnsignedValue();
- long mask = 1 << (length - 1);
- if((mask & val) != 0)
- {
- int shifts = 64 - length;
- return (val << shifts) >> shifts;
- }
- return val;
+ super();
+ this.owner = owner;
+ initValues();
+ owner.registerInput(this);
}
-
- /**
- * Included for convenient use on {@link WireArray}s of length 1.
- * @return The value of bit 0.
- *
- * @author Fabian Stemmler
- */
- public Bit getValue()
+
+ private void initValues()
{
- return getValue(0);
+ values = new Bit[length];
+ for (int i = 0; i < length; i++)
+ values[i] = Bit.Z;
}
-
+
/**
+ * Sets the wires values. This takes up time, as specified by the
+ * {@link WireArray}s travel time.
*
- * @param index Index of the requested bit.
- * @return The value of the indexed bit.
+ * @param newValues The new values the wires should take on.
*
* @author Fabian Stemmler
*/
- public Bit getValue(int index)
- {
- return values[index];
- }
-
- public Bit[] getValues(int start, int end)
+ public void feedSignals(Bit... newValues)
{
- int length = end - start;
- Bit[] bits = new Bit[length];
- System.arraycopy(values, start, bits, 0, length);
- return bits;
+ if (newValues.length == length)
+ {
+ feedSignals(0, newValues);
+ } else
+ throw new IllegalArgumentException(
+ "Attempted to input " + newValues.length + " bits instead of " + length + " bits.");
}
-
-
+
/**
- * @return An array of length n containing the values of the n bits in the {@link WireArray}. Can be safely modified.
+ * Sets values of a subarray of wires. This takes up time, as specified by the
+ * {@link WireArray}s travel time.
*
- * @author Fabian Stemmler
- */
- public Bit[] getValues()
- {
- return values.clone();
- }
-
- /**
- * Adds an {@link WireArrayObserver}, who will be notified when the value of the {@link WireArray} is updated.
- * @param ob The {@link WireArrayObserver} to be notified of changes.
- * @return true if the given {@link WireArrayObserver} was not already registered, false otherwise
+ * @param newValues The new values the wires should take on.
+ * @param startingBit The first index of the subarray of wires.
*
* @author Fabian Stemmler
*/
- public boolean addObserver(WireArrayObserver ob)
+ public void feedSignals(int startingBit, Bit... newValues)
{
- return observers.add(ob);
+ Simulation.TIMELINE.addEvent((e) -> setValues(startingBit, newValues), travelTime);
}
-
- private void notifyObservers()
+
+ private void setValues(int startingBit, Bit... newValues)
{
- for(WireArrayObserver o : observers)
- o.update(this);
+ int exclLastIndex = startingBit + newValues.length;
+ if (length < exclLastIndex)
+ throw new ArrayIndexOutOfBoundsException("Attempted to input bits from index " + startingBit + " to "
+ + exclLastIndex + " when there are only " + length + "wires.");
+ if (!Arrays.equals(values, startingBit, exclLastIndex, newValues, 0, newValues.length))
+ {
+ System.arraycopy(newValues, 0, values, startingBit, newValues.length);
+ owner.recalculate();
+ }
}
-
- public WireArrayInput createInput()
+
+ public Bit[] getValues()
{
- return new WireArrayInput(this);
+ return values.clone();
}
-
- private void registerInput(WireArrayInput toRegister)
+
+ public void clearSignals()
{
- inputs.add(toRegister);
- }
-
- public class WireArrayInput {
- public final WireArray owner;
- private Bit[] values;
-
- private WireArrayInput(WireArray owner) {
- super();
- this.owner = owner;
- initValues();
- owner.registerInput(this);
- }
-
- private void initValues()
- {
- values = new Bit[length];
- for(int i = 0; i < length; i++)
- values[i] = Bit.Z;
- }
-
- /**
- * Sets the wires values. This takes up time, as specified by the {@link WireArray}s travel time.
- * @param newValues The new values the wires should take on.
- *
- * @author Fabian Stemmler
- */
- public void feedSignals(Bit... newValues)
- {
- if(newValues.length == length)
- {
- feedSignals(0, newValues);
- }
- else
- throw new IllegalArgumentException("Attempted to input " + newValues.length + " bits instead of " + length + " bits.");
- }
-
- /**
- * Sets values of a subarray of wires. This takes up time, as specified by the {@link WireArray}s travel time.
- * @param newValues The new values the wires should take on.
- * @param startingBit The first index of the subarray of wires.
- *
- * @author Fabian Stemmler
- */
- public void feedSignals(int startingBit, Bit... newValues)
- {
- Simulation.TIMELINE.addEvent((e) -> setValues(startingBit, newValues), travelTime);
- }
-
- private void setValues(int startingBit, Bit... newValues)
- {
- int exclLastIndex = startingBit + newValues.length;
- if(length < exclLastIndex)
- throw new ArrayIndexOutOfBoundsException("Attempted to input bits from index " + startingBit + " to "
- + exclLastIndex + " when there are only " + length + "wires.");
- if(!Arrays.equals(values, startingBit, exclLastIndex, newValues, 0, newValues.length))
- {
- System.arraycopy(newValues, 0, values, startingBit, newValues.length);
- owner.recalculate();
- }
- }
-
- public Bit[] getValues()
- {
- return values.clone();
- }
-
- public void clearSignals()
- {
- Bit[] bits = new Bit[length];
- for(int i = 0; i < length; i++)
- bits[i] = Bit.Z;
- feedSignals(bits);
- }
-
- @Override
- public String toString()
- {
- return Arrays.toString(values);
- }
+ Bit[] bits = new Bit[length];
+ for (int i = 0; i < length; i++)
+ bits[i] = Bit.Z;
+ feedSignals(bits);
}
@Override
public String toString()
{
- return String.format("wire 0x%08x value: %s inputs: %s", hashCode(), Arrays.toString(values), inputs);
+ return Arrays.toString(values);
}
-}
+ }
+
+ @Override
+ public String toString()
+ {
+ return String.format("wire 0x%08x value: %s inputs: %s", hashCode(), Arrays.toString(values), inputs);
+ }
+
+ public static WireArrayInput[] extractInputs(WireArray[] w)
+ {
+ WireArrayInput[] inputs = new WireArrayInput[w.length];
+ for(int i = 0; i < w.length; i++)
+ inputs[i] = w[i].createInput();
+ return inputs;
+ }
+}
\ No newline at end of file