*/
public class Wire
{
+ public final String name;
private BitVector values;
public final int travelTime;
private List<ReadEnd> attached = new ArrayList<>();
Timeline timeline;
public Wire(Timeline timeline, int length, int travelTime)
+ {
+ this(timeline, length, travelTime, null);
+ }
+
+ public Wire(Timeline timeline, int length, int travelTime, String name)
{
if (length < 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));
+ this.name = name;
this.timeline = timeline;
this.length = length;
this.travelTime = travelTime;
values = U.toVector(length);
}
- private void recalculateSingleInput()
- {
- setNewValues(inputs.get(0).getInputValues());
- }
-
- private void recalculateMultipleInputs()
- {
- BitVectorMutator mutator = BitVectorMutator.empty();
- for (ReadWriteEnd wireArrayEnd : inputs)
- mutator.join(wireArrayEnd.getInputValues());
- setNewValues(mutator.get());
- }
-
private void setNewValues(BitVector newValues)
{
if (values.equals(newValues))
void recalculate()
{
- switch (inputs.size())
+ if (inputs.size() == 0)
+ setNewValues(BitVector.of(Bit.U, length));
+ else
{
- case 0:
- return;
- case 1:
- recalculateSingleInput();
- break;
- default:
- recalculateMultipleInputs();
+ BitVectorMutator mutator = BitVectorMutator.empty();
+ for (ReadWriteEnd wireArrayEnd : inputs)
+ mutator.join(wireArrayEnd.getInputValues());
+ setNewValues(mutator.toBitVector());
}
}
+ /**
+ * Forces a Wire to take on specific values. If the new values differ from the old ones, the observers of the Wire will be notified.
+ * WARNING! Use this with care! The preferred way of writing the values is ReadWriteEnd.feedSignals(BitVector)
+ *
+ * @param values The values the <code>Wire</code> will have immediately after this method is called
+ */
+ public void forceValues(BitVector values)
+ {
+ setNewValues(values);
+ }
+
/**
* The {@link Wire} is interpreted as an unsigned integer with n bits.
*
public class ReadWriteEnd extends ReadEnd
{
- private boolean open;
+ private boolean open, isWriting;
private BitVector inputValues;
ReadWriteEnd()
{
super();
open = true;
+ isWriting = true;
initValues();
registerInput(this);
}
timeline.addEvent(e -> setValues(startingBit, bitVector), travelTime);
}
- private void setValues(int startingBit, BitVector newValues)
+ /**
+ * Sets the values that are being fed into the {@link Wire}. The preferred way of setting {@link ReadWriteEnd} values is via
+ * feedValues(...) with a delay.
+ */
+ void setValues(int startingBit, BitVector newValues)
{
// index check covered in equals
if (!inputValues.equalsWithOffset(newValues, startingBit))
}
}
- private void setValues(BitVector newValues)
+ /**
+ * Sets the values that are being fed into the {@link Wire}. The preferred way of setting {@link ReadWriteEnd} values is via
+ * feedValues(...) with a delay.
+ */
+ void setValues(BitVector newValues)
{
if (inputValues.equals(newValues))
return;
continue;
mutator.join(wireEnd.inputValues);
}
- return mutator.get();
+ return mutator.toBitVector();
}
@Override
{
return inputValues.toString();
}
+
+ @Override
+ public void close()
+ {
+ super.close();
+ open = false;
+ }
+
+ void setWriting(boolean isWriting)
+ {
+ if (this.isWriting != isWriting)
+ {
+ this.isWriting = isWriting;
+ if (isWriting)
+ inputs.add(this);
+ else
+ inputs.remove(this);
+ Wire.this.recalculate();
+ }
+ }
+
+ boolean isWriting()
+ {
+ return isWriting;
+ }
}
@Override
public String toString()
{
- return String.format("wire 0x%08x value: %s inputs: %s", hashCode(), values, inputs);
+ String name = this.name == null ? String.format("0x%08x", hashCode()) : this.name;
+ return String.format("wire %s value: %s inputs: %s", name, values, inputs);
}
public static ReadEnd[] extractEnds(Wire[] w)
inputs[i] = w[i].createReadWriteEnd();
return inputs;
}
+
+ // TODO Fix ReadWriteEnd feeding signals to entire Wire (Z) instead of only selected Bits
+ /**
+ * 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
+ */
+ public static void fuse(Wire a, Wire b, int fromA, int fromB, int length)
+ {
+ 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.registerObserver(aF);
+ rB.registerObserver(bF);
+ aF.update(rA);
+ bF.update(rB);
+ }
+
+ /**
+ *
+ * Fuses 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 fused with b
+ * @param b The {@link Wire} to be fused with a
+ */
+ public static void fuse(Wire a, Wire b)
+ {
+ fuse(a, b, 0, 0, a.length);
+ }
+
+ private static class Fusion implements LogicObserver
+ {
+ private ReadWriteEnd target;
+ int fromSource, fromTarget, length;
+
+ public Fusion(ReadWriteEnd target, int fromSource, int fromTarget, int length)
+ {
+ this.target = target;
+ this.fromSource = fromSource;
+ this.fromTarget = fromTarget;
+ this.length = length;
+ }
+
+ @Override
+ public void update(LogicObservable initiator)
+ {
+ ReadWriteEnd source = (ReadWriteEnd) initiator;
+ if (source.getWire().inputs.size() - (source.isWriting() ? 1 : 0) == 0)
+ target.setWriting(false);
+ else
+ {
+ target.setWriting(true);
+ BitVector targetInput = source.wireValuesExcludingMe().subVector(fromSource, fromSource + length);
+ target.setValues(fromTarget, targetInput);
+ }
+ }
+ }
}
\ No newline at end of file