private BitVector values;
public final int travelTime;
private List<ReadEnd> attached = new ArrayList<>();
- public final int length;
+ public final int width;
List<ReadWriteEnd> inputs = new ArrayList<>();
Timeline timeline;
- public Wire(Timeline timeline, int length, int travelTime)
+ public Wire(Timeline timeline, int width, int travelTime)
{
- this(timeline, length, travelTime, null);
+ this(timeline, width, travelTime, null);
}
- public Wire(Timeline timeline, int length, int travelTime, String name)
+ public Wire(Timeline timeline, int width, int travelTime, String name)
{
- if (length < 1)
+ if (width < 1)
throw new IllegalArgumentException(
- String.format("Tried to create an array of wires with length %d, but a length of less than 1 makes no sense.", length));
+ String.format("Tried to create an array of wires with width %d, but a width of less than 1 makes no sense.", width));
this.name = name;
this.timeline = timeline;
- this.length = length;
+ this.width = width;
this.travelTime = travelTime;
initValues();
}
private void initValues()
{
- values = U.toVector(length);
+ values = U.toVector(width);
}
private void setNewValues(BitVector newValues)
{
if (values.equals(newValues))
return;
-// BitVector oldValues = values;
values = newValues;
notifyObservers();
}
void recalculate()
{
- if (inputs.size() == 0)
- setNewValues(BitVector.of(Bit.U, length));
+ if (inputs.isEmpty())
+ setNewValues(U.toVector(width));
else
{
BitVectorMutator mutator = BitVectorMutator.empty();
* The {@link Wire} 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.
+ * value), not <code>Bit.U</code>, <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)
- {
- if (b != Bit.ZERO && b != Bit.ONE)
- return false;
- }
- return true;
+ return values.isBinary();
}
/**
public long getSignedValue()
{
long val = getUnsignedValue();
- long mask = 1 << (length - 1);
+ long mask = 1 << (width - 1);
if ((mask & val) != 0)
{
- int shifts = 64 - length;
+ int shifts = 64 - width;
return (val << shifts) >> shifts;
}
return val;
*
* @author Fabian Stemmler
*/
- void attachEnd(ReadEnd end)
+ boolean attachEnd(ReadEnd end)
{
- attached.add(end);
+ return attached.add(end);
}
void detachEnd(ReadEnd end)
private void notifyObservers()
{
- attached.forEach(r -> r.update());
+ attached.forEach(ReadEnd::update);
}
/**
}
/**
- * Included for convenient use on {@link Wire}s of length 1.
+ * Included for convenient use on {@link Wire}s of width 1.
*
* @return The value of bit 0.
*
return Wire.this.getValue(index);
}
- /**
- * @param index Index of the requested bit.
- * @return The value of the indexed bit.
- *
- * @author Fabian Stemmler
- */
public BitVector getValues()
{
return Wire.this.getValues();
recalculate();
}
- public int length()
+ public int width()
{
- return length;
+ return width;
}
public Wire getWire()
public class ReadWriteEnd extends ReadEnd
{
- private boolean open, isWriting;
+ private boolean open;
+ private boolean isWriting;
private BitVector inputValues;
ReadWriteEnd()
private void initValues()
{
- inputValues = U.toVector(length);
+ inputValues = U.toVector(width);
}
/**
public void feedSignals(BitVector newValues)
{
- if (newValues.length() != length)
+ if (newValues.width() != width)
throw new IllegalArgumentException(
- String.format("Attempted to input %d bits instead of %d bits.", newValues.length(), length));
+ String.format("Attempted to input %d bits instead of %d bits.", newValues.width(), width));
if (!open)
- throw new RuntimeException("Attempted to write to closed WireArrayEnd.");
+ throw new IllegalStateException("Attempted to write to closed WireArrayEnd.");
timeline.addEvent(e -> setValues(newValues), travelTime);
}
public void feedSignals(int startingBit, BitVector bitVector)
{
if (!open)
- throw new RuntimeException("Attempted to write to closed WireArrayEnd.");
+ throw new IllegalStateException("Attempted to write to closed WireArrayEnd.");
timeline.addEvent(e -> setValues(startingBit, bitVector), travelTime);
}
if (!inputValues.equalsWithOffset(newValues, startingBit))
{
Bit[] vals = inputValues.getBits();
- System.arraycopy(newValues.getBits(), 0, vals, startingBit, newValues.length());
+ System.arraycopy(newValues.getBits(), 0, vals, startingBit, newValues.width());
inputValues = BitVector.of(vals);
Wire.this.recalculate();
}
*/
public void clearSignals()
{
- feedSignals(Z.toVector(length));
+ feedSignals(Z.toVector(width));
}
public BitVector wireValuesExcludingMe()
* Fuses the selected bits of two wires together. If the bits change in one Wire, the other is changed accordingly immediately. Warning:
* The bits are permanently fused together.
*
- * @param a The {@link Wire} to be (partially) fused with b
- * @param b The {@link Wire} to be (partially) fused with a
- * @param fromA The first bit of {@link Wire} a to be fused
- * @param fromB The first bit of {@link Wire} b to be fused
- * @param length The amount of bits to fuse
+ * @param a The {@link Wire} to be (partially) fused with b
+ * @param b The {@link Wire} to be (partially) fused with a
+ * @param fromA The first bit of {@link Wire} a to be fused
+ * @param fromB The first bit of {@link Wire} b to be fused
+ * @param width The amount of bits to fuse
*/
- public static void fuse(Wire a, Wire b, int fromA, int fromB, int length)
+ public static void fuse(Wire a, Wire b, int fromA, int fromB, int width)
{
ReadWriteEnd rA = a.createReadWriteEnd(), rB = b.createReadWriteEnd();
rA.setWriting(false);
rB.setWriting(false);
- rA.setValues(BitVector.of(Bit.Z, a.length));
- rB.setValues(BitVector.of(Bit.Z, b.length));
- Fusion aF = new Fusion(rB, fromA, fromB, length), bF = new Fusion(rA, fromB, fromA, length);
+ rA.setValues(BitVector.of(Bit.Z, a.width));
+ rB.setValues(BitVector.of(Bit.Z, b.width));
+ Fusion aF = new Fusion(rB, fromA, fromB, width), bF = new Fusion(rA, fromB, fromA, width);
rA.registerObserver(aF);
rB.registerObserver(bF);
aF.update(rA);
*/
public static void fuse(Wire a, Wire b)
{
- fuse(a, b, 0, 0, a.length);
+ fuse(a, b, 0, 0, a.width);
}
private static class Fusion implements LogicObserver
{
private ReadWriteEnd target;
- int fromSource, fromTarget, length;
+ int fromSource, fromTarget, width;
- public Fusion(ReadWriteEnd target, int fromSource, int fromTarget, int length)
+ public Fusion(ReadWriteEnd target, int fromSource, int fromTarget, int width)
{
this.target = target;
this.fromSource = fromSource;
this.fromTarget = fromTarget;
- this.length = length;
+ this.width = width;
}
@Override
else
{
target.setWriting(true);
- BitVector targetInput = source.wireValuesExcludingMe().subVector(fromSource, fromSource + length);
+ BitVector targetInput = source.wireValuesExcludingMe().subVector(fromSource, fromSource + width);
target.setValues(fromTarget, targetInput);
}
}