1 package net.mograsim.logic.core.wires;
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3 import static net.mograsim.logic.core.types.Bit.U;
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4 import static net.mograsim.logic.core.types.Bit.Z;
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6 import java.util.ArrayList;
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7 import java.util.List;
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9 import net.mograsim.logic.core.LogicObservable;
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10 import net.mograsim.logic.core.LogicObserver;
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11 import net.mograsim.logic.core.timeline.Timeline;
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12 import net.mograsim.logic.core.types.Bit;
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13 import net.mograsim.logic.core.types.BitVector;
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14 import net.mograsim.logic.core.types.BitVector.BitVectorMutator;
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17 * Represents an array of wires that can store n bits of information.
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19 * @author Fabian Stemmler
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24 private BitVector values;
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25 public final int travelTime;
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26 private List<ReadEnd> attached = new ArrayList<>();
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27 public final int length;
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28 List<ReadWriteEnd> inputs = new ArrayList<>();
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31 public Wire(Timeline timeline, int length, int travelTime)
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34 throw new IllegalArgumentException(
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35 String.format("Tried to create an array of wires with length %d, but a length of less than 1 makes no sense.", length));
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36 this.timeline = timeline;
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37 this.length = length;
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38 this.travelTime = travelTime;
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42 private void initValues()
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44 values = U.toVector(length);
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47 private void recalculateSingleInput()
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49 setNewValues(inputs.get(0).getInputValues());
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52 private void recalculateMultipleInputs()
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54 BitVectorMutator mutator = BitVectorMutator.empty();
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55 for (ReadWriteEnd wireArrayEnd : inputs)
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56 mutator.join(wireArrayEnd.getInputValues());
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57 setNewValues(mutator.get());
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60 private void setNewValues(BitVector newValues)
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62 if (values.equals(newValues))
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64 // BitVector oldValues = values;
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71 switch (inputs.size())
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76 recalculateSingleInput();
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79 recalculateMultipleInputs();
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84 * The {@link Wire} is interpreted as an unsigned integer with n bits.
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86 * @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
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87 * value), not <code>Bit.X</code> or <code>Bit.Z</code>. <code>false</code> is returned otherwise.
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89 * @author Fabian Stemmler
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91 public boolean hasNumericValue()
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93 for (Bit b : values)
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95 if (b != Bit.ZERO && b != Bit.ONE)
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102 * The {@link Wire} is interpreted as an unsigned integer with n bits.
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104 * @return The unsigned value of the {@link Wire}'s bits, where value 0 corresponds with 2^0, value 1 is 2^1 and so on.
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106 * @author Fabian Stemmler
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108 public long getUnsignedValue()
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112 for (Bit bit : values)
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119 return 0; // TODO: Proper handling for getUnsignedValue(), if not all bits are 1 or 0;
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131 * The {@link Wire} is interpreted as a signed integer with n bits.
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133 * @return The signed value of the {@link Wire}'s bits, where value 0 corresponds with 2^0, value 1 is 2^1 and so on.
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135 * @author Fabian Stemmler
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137 public long getSignedValue()
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139 long val = getUnsignedValue();
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140 long mask = 1 << (length - 1);
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141 if ((mask & val) != 0)
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143 int shifts = 64 - length;
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144 return (val << shifts) >> shifts;
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149 public Bit getValue()
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151 return getValue(0);
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154 public Bit getValue(int index)
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156 return values.getBit(index);
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159 public BitVector getValues(int start, int end)
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161 return values.subVector(start, end);
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164 public BitVector getValues()
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170 * Adds an {@link LogicObserver}, who will be notified when the value of the {@link Wire} is updated.
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172 * @param ob The {@link LogicObserver} to be notified of changes.
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173 * @return true if the given {@link LogicObserver} was not already registered, false otherwise
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175 * @author Fabian Stemmler
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177 void attachEnd(ReadEnd end)
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182 void detachEnd(ReadEnd end)
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184 attached.remove(end);
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187 private void notifyObservers()
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189 attached.forEach(r -> r.update());
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193 * Create and register a {@link ReadWriteEnd} object, which is tied to this {@link Wire}. This {@link ReadWriteEnd} can be written to.
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195 public ReadWriteEnd createReadWriteEnd()
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197 return new ReadWriteEnd();
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201 * Create a {@link ReadEnd} object, which is tied to this {@link Wire}. This {@link ReadEnd} cannot be written to.
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203 public ReadEnd createReadOnlyEnd()
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205 return new ReadEnd();
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208 void registerInput(ReadWriteEnd toRegister)
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210 inputs.add(toRegister);
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214 * A {@link ReadEnd} feeds a constant signal into the {@link Wire} it is tied to. The combination of all inputs determines the
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215 * {@link Wire}s final value. X dominates all other inputs Z does not affect the final value, unless there are no other inputs than Z 0
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216 * and 1 turn into X when they are mixed
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218 * @author Fabian Stemmler
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220 public class ReadEnd implements LogicObservable
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222 private List<LogicObserver> observers = new ArrayList<>();
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227 Wire.this.attachEnd(this);
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230 public void update()
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236 * Included for convenient use on {@link Wire}s of length 1.
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238 * @return The value of bit 0.
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240 * @author Fabian Stemmler
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242 public Bit getValue()
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244 return Wire.this.getValue();
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248 * @param index Index of the requested bit.
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249 * @return The value of the indexed bit.
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251 * @author Fabian Stemmler
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253 public Bit getValue(int index)
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255 return Wire.this.getValue(index);
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259 * @param index Index of the requested bit.
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260 * @return The value of the indexed bit.
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262 * @author Fabian Stemmler
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264 public BitVector getValues()
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266 return Wire.this.getValues();
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270 * @param start Start of the wanted segment. (inclusive)
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271 * @param end End of the wanted segment. (exclusive)
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272 * @return The values of the segment of {@link Bit}s indexed.
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274 * @author Fabian Stemmler
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276 public BitVector getValues(int start, int end)
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278 return Wire.this.getValues(start, end);
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282 * The {@link Wire} is interpreted as an unsigned integer with n bits.
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284 * @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
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285 * same value), not <code>Bit.X</code> or <code>Bit.Z</code>. <code>false</code> is returned otherwise.
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287 * @author Fabian Stemmler
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289 public boolean hasNumericValue()
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291 return Wire.this.hasNumericValue();
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295 * The {@link Wire} is interpreted as an unsigned integer with n bits.
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297 * @return The unsigned value of the {@link Wire}'s bits, where value 0 corresponds with 2^0, value 1 is 2^1 and so on.
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299 * @author Fabian Stemmler
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301 public long getUnsignedValue()
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303 return Wire.this.getUnsignedValue();
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307 * The {@link Wire} is interpreted as a signed integer with n bits.
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309 * @return The signed value of the {@link Wire}'s bits, where value 0 corresponds with 2^0, value 1 is 2^1 and so on.
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311 * @author Fabian Stemmler
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313 public long getSignedValue()
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315 return Wire.this.getSignedValue();
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319 public String toString()
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321 return Wire.this.toString();
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324 public void close()
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326 inputs.remove(this);
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331 public int length()
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336 public Wire getWire()
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342 public void registerObserver(LogicObserver ob)
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348 public void deregisterObserver(LogicObserver ob)
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350 observers.remove(ob);
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354 public void notifyObservers()
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356 observers.forEach(ob -> ob.update(this));
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360 public class ReadWriteEnd extends ReadEnd
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362 private boolean open;
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363 private BitVector inputValues;
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370 registerInput(this);
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373 private void initValues()
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375 inputValues = U.toVector(length);
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379 * Sets the wires values. This takes up time, as specified by the {@link Wire}s travel time.
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381 * @param newValues The new values the wires should take on.
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383 * @author Fabian Stemmler
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385 public void feedSignals(Bit... newValues)
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387 feedSignals(BitVector.of(newValues));
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390 public void feedSignals(BitVector newValues)
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392 if (newValues.length() != length)
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393 throw new IllegalArgumentException(
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394 String.format("Attempted to input %d bits instead of %d bits.", newValues.length(), length));
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396 throw new RuntimeException("Attempted to write to closed WireArrayEnd.");
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397 timeline.addEvent(e -> setValues(newValues), travelTime);
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401 * Sets values of a subarray of wires. This takes up time, as specified by the {@link Wire}s travel time.
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403 * @param bitVector The new values the wires should take on.
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404 * @param startingBit The first index of the subarray of wires.
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406 * @author Fabian Stemmler
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408 public void feedSignals(int startingBit, BitVector bitVector)
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411 throw new RuntimeException("Attempted to write to closed WireArrayEnd.");
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412 timeline.addEvent(e -> setValues(startingBit, bitVector), travelTime);
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415 private void setValues(int startingBit, BitVector newValues)
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417 // index check covered in equals
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418 if (!inputValues.equalsWithOffset(newValues, startingBit))
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420 Bit[] vals = inputValues.getBits();
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421 System.arraycopy(newValues.getBits(), 0, vals, startingBit, newValues.length());
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422 inputValues = BitVector.of(vals);
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423 Wire.this.recalculate();
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427 private void setValues(BitVector newValues)
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429 if (inputValues.equals(newValues))
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431 inputValues = newValues;
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432 Wire.this.recalculate();
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436 * @return The value (of bit 0) the {@link ReadEnd} is currently feeding into the associated {@link Wire}.
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438 public Bit getInputValue()
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440 return getInputValue(0);
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444 * @return The value which the {@link ReadEnd} is currently feeding into the associated {@link Wire} at the indexed {@link Bit}.
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446 public Bit getInputValue(int index)
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448 return inputValues.getBit(index);
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452 * @return A copy (safe to modify) of the values the {@link ReadEnd} is currently feeding into the associated {@link Wire}.
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454 public BitVector getInputValues()
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456 return getInputValues(0, length);
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459 public BitVector getInputValues(int start, int end)
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461 return inputValues.subVector(start, end);
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465 * {@link ReadEnd} now feeds Z into the associated {@link Wire}.
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467 public void clearSignals()
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469 feedSignals(Z.toVector(length));
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472 public BitVector wireValuesExcludingMe()
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474 BitVectorMutator mutator = BitVectorMutator.empty();
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475 for (ReadWriteEnd wireEnd : inputs)
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477 if (wireEnd == this)
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479 mutator.join(wireEnd.inputValues);
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481 return mutator.get();
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485 public String toString()
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487 return inputValues.toString();
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492 public String toString()
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494 return String.format("wire 0x%08x value: %s inputs: %s", hashCode(), values, inputs);
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497 public static ReadEnd[] extractEnds(Wire[] w)
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499 ReadEnd[] inputs = new ReadEnd[w.length];
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500 for (int i = 0; i < w.length; i++)
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501 inputs[i] = w[i].createReadWriteEnd();
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