Constructs a new Gate.
An array of buses representing the input buses for the gate.
An array of buses representing the output buses for the gate.
Attach a logger to this loggable object so that messages logged with log will be send to this logger. Note that this can be called multiple times and multiple loggers can be attached to the same object. Log messages will be sent to all attached loggers.
The logger to attach to this object.
Detach a logger from this loggable object so that messages logged with log will no longer be sent to it. If the logger is not attached, nothing happens.
The logger to detach from this object.
Evaluate a gate output based on two input operands. These are called the "previous"
and "next" values because this function is called iteratively in a reduce()-like
manner to evaluate all of the circuit outputs.
The result of performing a logical operation on the two input operands.
Everything that is loggable gets a unique ID, which can help identify instances of objects in logs when many such instances exist. This ID is normally generated automatically by CircuitLoggable when it is instantiated, unless this method has been by child classes.
A unique ID among all loggable objects.
Retrieve the input buses going in to this circuit element, in the order that they were passed to the CircuitElement constructor.
An array of CircuitBus objects.
Get the stored label of this element. See comments for setLabel.
The stored label, or null if the label was never set.
Retrieve the output buses going out from this circuit element, in the order that they were passed to the CircuitElement constructor.
An array of CircuitBus objects.
ProtectedgetGet the stored propagation delay. See comments for setPropagationDelay.
The stored propagation delay. If no delay was ever set with
setPropagationDelay, then 0 is returned.
ProtectedlogLog a message, sending it to all loggers associated with this loggable.
The log level to log the message at.
The message to log.
Optionaldata: anyAny additional data to associate with the message.
Propagate all registered loggers (present and future) to the given loggable. This function will register the loggable object with the object it is being called on, establishing a parent-child relationship where all changes to the parent loggers will be propagated to the children.
The loggable object to attach all registered loggers to.
This method resets the circuit element to a known state, and is called at the beginning of each simulation run, but not between clock cycles. It is expected to be overridden only by child elements who have internal state which they may need to reset when the circuit is re-run with new inputs.
For example, see the Splitter element or any of the flip-flops, which are sequential elements and thus must retain a history of inputs and outputs to know how to propagate new outputs.
If you are going to override this method, be sure to still call the superclass
method first: super.reset().
Compute this element's output values after the input values have changed. This function can use getInputs to get the inputs in the same order they were passed to the constructor. It is helpful to destructure the array using the same names as were provided to the constructor. Likewise, this function can use getOutputs to get the output buses in the same order they were passed to the constructor.
The goal of this function is to actually do the logic of the element, translating the values on the input buses to values on the output buses.
The actual propagation delay of this element. Even though this class provides getPropagationDelay and setPropagationDelay, a circuit element may actually take more or less time to evaluate itself, and in some cases, a fixed call to setPropagationDelay with a static number isn't appropriate at all (e.g. in the case of SubCircuit, which inherits the propagation delay from the actual subcircuit.)
Set the label on this element. Some circuit simulators allow arbitrary labels on all elements, which is useful for debugging purposes. If a label is provided, it will be printed in the logs to more easily identify circuit elements.
The label of this circuit element.
An instance of this element for method chaining.
Store a propagation delay number. This function is useful when loading in circuit elements which support custom propagation delays, so that resolve can return the result of getPropagationDelay if it is constant and doesn't change with each resolution.
The propagation delay to store.
An instance of this element for method chaining.
Convert this element to a string for representation in log output.
A string in the format of ClassName[id=XXX]('YYY') where ClassName
is the name of the class, XXX is the unique loggable ID of the specific
class instance, and YYY is the user-provided label set by setLabel,
if any.
A simple XOR gate.
See
OrGate