public Location getExit(Location traveller) {
Location loc = null;
// Check if the gate has an exit block
if (gate.getExit() != null) {
Blox exit = getBlockAt(gate.getExit());
int back = (isBackwards()) ? -1 : 1;
loc =
exit.modRelativeLoc(
0D, 0D, 1D, traveller.getYaw(), traveller.getPitch(), modX * back, 1, modZ * back);
} else {
Stargate.log.log(
Level.WARNING,
"[Stargate] Missing destination point in .gate file " + gate.getFilename());
}
if (loc != null) {
if (getWorld().getBlockTypeIdAt(loc.getBlockX(), loc.getBlockY(), loc.getBlockZ())
== Material.STEP.getId()) {
loc.setY(loc.getY() + 0.5);
}
loc.setPitch(traveller.getPitch());
return loc;
}
return traveller;
}
public void triggerWorldHour(World world, int h) {
h = h % 24;
for (Gate gate : Gates.i.getAll()) {
World gateWorld = gate.calcGateWorld();
if (!world.equals(gateWorld)) continue;
gate.trigger(TriggerHour.getInstance(h), null, null);
}
}
/** gate score = smallest noise margin (distance in log(REU) of input REU to margin REU) */
public static void evaluateGateNoiseMargin(Gate g, Args options) {
if (options.is_noise_margin() == false) {
g.get_scores().set_noise_margin_contract(true);
return;
}
if (g.Type == GateType.INPUT || g.Type == GateType.OUTPUT || g.Type == GateType.OUTPUT_OR) {
return;
}
// "x" to value
HashMap<String, Double> lowest_on_reu = GateUtil.getIncomingONlow(g);
HashMap<String, Double> highest_off_reu = GateUtil.getIncomingOFFhigh(g);
ArrayList<Double> all_margins = new ArrayList<Double>();
for (String var : highest_off_reu.keySet()) {
if (g.get_variable_thresholds().get(var) != null) {
// IL is the input-low threshold
Double IL = g.get_variable_thresholds().get(var)[0];
// actual REU
Double log_input_reu = Math.log10(highest_off_reu.get(var));
// NML is the margin/width between the actual REU and the threshold REU
Double NML = Math.log10(IL) - log_input_reu;
all_margins.add(NML);
}
}
for (String var : lowest_on_reu.keySet()) {
if (g.get_variable_thresholds().get(var) != null) {
Double IH = g.get_variable_thresholds().get(var)[1];
Double NMH = Math.log10(lowest_on_reu.get(var)) - Math.log10(IH);
all_margins.add(NMH);
}
}
if (all_margins.isEmpty()) {
g.get_scores().set_noise_margin(0.0);
g.get_scores().set_noise_margin_contract(true);
} else {
Collections.sort(all_margins);
g.get_scores().set_noise_margin(all_margins.get(0));
if (all_margins.get(0) < 0) {
g.get_scores().set_noise_margin_contract(false);
} else {
g.get_scores().set_noise_margin_contract(true);
}
}
}
public boolean calculateValue() throws GateException {
System.out.println(this.inputGates.size());
if (this.inputGates.size() < 2) {
throw new GateException("Error in: " + this.name + " - invalid number of input gates.");
}
for (Gate g : this.inputGates) {
if (g.getOutputValue()) {
return true;
}
}
return false;
}
/**
* for all logic and output gates: set flag simulate_reu = true (indicates that REU needs to be
* simulated) then call simulateREU() in Gate.java
*
* <p>Hill function evaluation
*/
public static void simulateREU(LogicCircuit lc, GateLibrary gate_library, Args options) {
ArrayList<Gate> logic_and_output_gates = new ArrayList<Gate>();
logic_and_output_gates.addAll(lc.get_logic_gates());
logic_and_output_gates.addAll(lc.get_output_gates());
// input gate REU already set
// make sure that all gates are re-simulated by setting simulate_reu to TRUE
for (Gate gate : logic_and_output_gates) {
gate.set_unvisited(true);
}
for (Gate gate : logic_and_output_gates) {
simulateREU(gate, gate_library, options);
}
}
/** Same as above, but converts input distr to output distr using a matrix transfer function */
public static void simulateHistogramREU(LogicCircuit lc, GateLibrary gate_library, Args options) {
ArrayList<Gate> logic_and_output_gates = new ArrayList<Gate>();
logic_and_output_gates.addAll(lc.get_logic_gates());
logic_and_output_gates.addAll(lc.get_output_gates());
// input gate REU already set
for (Gate gate : logic_and_output_gates) {
gate.set_unvisited(true);
}
for (Gate gate : logic_and_output_gates) {
simulateHistogramREU(gate, gate_library, options);
}
}
private static String getResetFunction(Gate gate) {
String result = null;
if (gate.isSequential()) {
result = ExpressionUtils.extactResetExpression(gate.function.formula, gate.seq);
}
return result;
}
public void close(boolean force) {
if (!isOpen) return;
// Call the StargateCloseEvent
StargateCloseEvent event = new StargateCloseEvent(this, force);
Stargate.server.getPluginManager().callEvent(event);
if (event.isCancelled()) return;
force = event.getForce();
if (isAlwaysOn() && !force) return; // Only close always-open if forced
// Close this gate, then the dest gate.
for (Blox inside : getEntrances()) {
inside.setType(gate.getPortalBlockClosed());
}
player = null;
isOpen = false;
Stargate.openList.remove(this);
Stargate.activeList.remove(this);
if (!isAlwaysOn()) {
Portal end = getDestination();
if (end != null && end.isOpen()) {
end.deactivate(); // Clear it's destination first.
end.close(false);
}
}
deactivate();
}
public void run() {
while (true) {
// May print inconsistent value, as toString is not synchronized
System.out.println(gate.toString());
}
}
@Override
public void run() {
System.out.println(myname + " BEGIN");
while (true) {
gate.pass(myname, myaddress);
}
}
public void writeToNBT(NBTTagCompound nbttagcompound) {
transport.writeToNBT(nbttagcompound);
logic.writeToNBT(nbttagcompound);
// Save pulser if any
if (gate != null) {
NBTTagCompound nbttagcompoundC = new NBTTagCompound();
gate.writeToNBT(nbttagcompoundC);
nbttagcompound.setTag("Gate", nbttagcompoundC);
// Wire states are stored for pipes with gates only
for (int i = 0; i < 4; ++i)
nbttagcompound.setBoolean("wireState[" + i + "]", broadcastSignal[i]);
nbttagcompound.setBoolean("redstoneState", broadcastRedstone);
}
for (int i = 0; i < 4; ++i) nbttagcompound.setBoolean("wireSet[" + i + "]", wireSet[i]);
for (int i = 0; i < 8; ++i) {
nbttagcompound.setInteger(
"action[" + i + "]", activatedActions[i] != null ? activatedActions[i].getId() : 0);
nbttagcompound.setInteger(
"trigger[" + i + "]", activatedTriggers[i] != null ? activatedTriggers[i].getId() : 0);
}
for (int i = 0; i < 8; ++i)
if (triggerParameters[i] != null) {
NBTTagCompound cpt = new NBTTagCompound();
triggerParameters[i].writeToNBT(cpt);
nbttagcompound.setTag("triggerParameters[" + i + "]", cpt);
}
}
protected void initLocalData() {
docTableModel = new DocumentTableModel();
try {
documentsLoadedCount = Gate.getCreoleRegister().getAllInstances("gate.Document").size();
} catch (GateException exception) {
exception.printStackTrace();
}
}
public int CalculateHandlingTime() {
int minutes = 0;
Gate arrivalGate = arrival.getLanding();
Gate departureGate = destination.getTakeoff();
if (arrivalGate.equals(departureGate)) {
return 20; // assuming they have to unload all baggage and reload the baggage that doesnt
// transfer to
// different planes
}
int ag = arrivalGate.getGateNumber(); // to extract the numbers from the gate string
int dg = departureGate.getGateNumber();
if (arrivalGate.getGateTerminal().equals(departureGate.getGateTerminal())) // if same terminal
{
if (ag < dg) {
minutes = 20 + dg - ag;
} else {
minutes = 20 + ag - dg;
}
} else // not same terminal
{
minutes = 20 + ag + dg;
}
return minutes;
}
public LinkedList<IAction> getActions() {
LinkedList<IAction> result = new LinkedList<IAction>();
if (hasGate()) {
gate.addActions(result);
}
return result;
}
/**
* To evaluate the ON/OFF ratio for a circuit, calculate the ON/OFF ratio for each output gate,
* and choose the worst score among the outputs (#outputs >= 1).
*/
public static void evaluateCircuitONOFFRatio(LogicCircuit lc) {
double worst_out = Double.MAX_VALUE;
for (int out = 0;
out < lc.get_output_gates().size();
++out) { // if multiple outputs, average _scores
Gate output = lc.get_output_gates().get(out);
evaluateGateONOFFRatio(output);
// if multiple outputs, circuit score = score of worst output
if (output.get_scores().get_onoff_ratio() < worst_out) {
worst_out = output.get_scores().get_onoff_ratio();
}
}
lc.get_scores().set_onoff_ratio(worst_out);
}
/**
* The function evaluateCircuit calls other evaluate functions based on the circuit_score chose by
* user.
*
* <p>-circuit_score onoff_ratio score = log(ON/OFF), where ON is the lowest ON in the truthtable,
* and OFF is the highest off in the truthtable
*
* <p>-circuit_score noise_margin noise margin is computed from input REU distance from low margin
* (if low) or high margin (if high) score = average noise margin of all logic gates used for
* NOR/NOT only, and cannot be used if there are input gates and no logic gates
*
* <p>-circuit_score histogram score = 1 - overlap penalty, where overlap is from the worst pair
* among ONs and OFFs in the truthtable
*
* <p>Circuit is evaluated by evaluating each gate, so the same function calls appear but with a
* Gate parameter instead of LogicCircuit parameter
*/
public static void evaluateCircuit(LogicCircuit lc, GateLibrary gate_library, Args options) {
refreshGateAttributes(lc, gate_library);
// if sequential
if (options.get_circuit_type() == DNACompiler.CircuitType.sequential) {
SequentialHelper.setInitialREUs(lc, gate_library);
HashMap<String, ArrayList<ArrayList<Double>>> track_reus = new HashMap<>();
for (Gate g : lc.get_Gates()) {
track_reus.put(g.Name, new ArrayList<ArrayList<Double>>());
ArrayList<Double> copy_reus = new ArrayList<Double>(g.get_outreus());
track_reus.get(g.Name).add(copy_reus);
track_reus.get(g.Name).add(copy_reus);
}
boolean converges = SequentialHelper.convergeREUs(lc, gate_library, options, track_reus);
if (!converges) {
lc.get_scores().set_onoff_ratio(0.0);
lc.get_scores().set_noise_margin_contract(false);
return;
}
}
// if combinational
else if (options.get_circuit_type() == DNACompiler.CircuitType.combinational) {
simulateREU(lc, gate_library, options);
}
evaluateCircuitONOFFRatio(lc);
if (options.is_noise_margin()) {
evaluateCircuitNoiseMargin(lc, options);
}
if (options.is_snr()) {
evaluateCircuitSNR(lc, options);
}
}
/** noise_margin */
public static void evaluateCircuitNoiseMargin(LogicCircuit lc, Args options) {
// initialize to true. circuit will fail if any gate fails.
lc.get_scores().set_noise_margin_contract(true);
if (options.is_noise_margin() == false) {
return;
}
double sum_noise_margin = 0.0;
double min_noise_margin = 999.0;
for (Gate g : lc.get_logic_gates()) {
// 'options' are passed in to read the _noise_margin boolean
evaluateGateNoiseMargin(g, options);
if (g.get_scores().get_noise_margin() < min_noise_margin) {
min_noise_margin = g.get_scores().get_noise_margin();
}
// g.get_noise_margin() returns the min of the NML and NMH values (noise margin low, noise
// margin high)
sum_noise_margin += g.get_scores().get_noise_margin();
// sum_noise_margin += g.get_scores().get_noise_margin() * g.get_distance_to_input();
/** if one gate fails, the whole circuit fails threshold analysis */
if (g.get_scores().is_noise_margin_contract() == false) {
lc.get_scores().set_noise_margin_contract(false);
// lc.get_scores().set_noise_margin(0.0);
lc.get_scores().set_noise_margin(min_noise_margin);
break;
}
}
// noise margin value is not being used.
// noise margin is only used as a pass/fail filter, not a score term.
if (lc.get_scores().is_noise_margin_contract() == true) {
// lc.get_scores().set_noise_margin(sum_noise_margin / lc.get_logic_gates().size());
lc.get_scores().set_noise_margin(sum_noise_margin);
}
}
/**
* histogram
*
* <p>Histogram overlap score worst-case = 0.0 and best-case = 1.0
*/
public static void evaluateCircuitHistogramOverlap(
LogicCircuit lc, GateLibrary gate_library, Args options) { // output gate _score (average)
refreshGateAttributes(lc, gate_library);
// if sequential
if (options.get_circuit_type() == DNACompiler.CircuitType.sequential) {
// set initial
SequentialHelper.setInitialHistogramREUs(lc, gate_library);
// track
HashMap<String, ArrayList<ArrayList<double[]>>> track_reus = new HashMap<>();
for (Gate g : lc.get_Gates()) {
track_reus.put(g.Name, new ArrayList<ArrayList<double[]>>());
ArrayList<double[]> copy_hist_reus = new ArrayList<double[]>(g.get_histogram_reus());
track_reus.get(g.Name).add(copy_hist_reus);
track_reus.get(g.Name).add(copy_hist_reus); // looks for i-1
}
// converge
SequentialHelper.convergeHistogramREUs(lc, gate_library, options, track_reus);
}
// if combinational
else if (options.get_circuit_type() == DNACompiler.CircuitType.combinational) {
Evaluate.simulateHistogramREU(lc, gate_library, options);
}
double worst_out = Double.MAX_VALUE;
for (int out = 0; out < lc.get_output_gates().size(); ++out) {
Gate output = lc.get_output_gates().get(out);
evaluateGateHistogramOverlap(output);
if (output.get_scores().get_conv_overlap() < worst_out) {
worst_out = output.get_scores().get_conv_overlap();
}
}
lc.get_scores().set_conv_overlap(worst_out);
}
public boolean isPowered() {
RelativeBlockVector[] controls = gate.getControls();
for (RelativeBlockVector vector : controls) {
MaterialData mat = getBlockAt(vector).getBlock().getState().getData();
if (mat instanceof Button && ((Button) mat).isPowered()) return true;
}
return false;
}
/**
* Initialise the ANNIE system. This creates a "corpus pipeline" application that can be used to
* run sets of documents through the extraction system.
*/
public void initAnnie() throws GateException, IOException {
Out.prln("Initialising ANNIE...");
// load the ANNIE application from the saved state in plugins/ANNIE
File pluginsHome = Gate.getPluginsHome();
File anniePlugin = new File(pluginsHome, "ANNIE");
File annieGapp = new File(anniePlugin, "ANNIE_with_defaults.gapp");
annieController = (CorpusController) PersistenceManager.loadObjectFromFile(annieGapp);
Out.prln("...ANNIE loaded");
} // initAnnie()
public void readFromNBT(NBTTagCompound nbttagcompound) {
transport.readFromNBT(nbttagcompound);
logic.readFromNBT(nbttagcompound);
// Load pulser if any
if (nbttagcompound.hasKey("Gate")) {
NBTTagCompound nbttagcompoundP = nbttagcompound.getCompoundTag("Gate");
gate = new GateVanilla(this);
gate.readFromNBT(nbttagcompoundP);
} else if (nbttagcompound.hasKey("gateKind")) {
// Legacy implementation
Gate.GateKind kind = Gate.GateKind.values()[nbttagcompound.getInteger("gateKind")];
if (kind != Gate.GateKind.None) {
gate = new GateVanilla(this);
gate.kind = kind;
}
}
// Wire states are restored for pipes with gates
if (gate != null) {
for (int i = 0; i < 4; ++i)
broadcastSignal[i] = nbttagcompound.getBoolean("wireState[" + i + "]");
broadcastRedstone = nbttagcompound.getBoolean("redstoneState");
}
for (int i = 0; i < 4; ++i) wireSet[i] = nbttagcompound.getBoolean("wireSet[" + i + "]");
for (int i = 0; i < 8; ++i) {
activatedActions[i] = ActionManager.actions[nbttagcompound.getInteger("action[" + i + "]")];
activatedTriggers[i] =
ActionManager.triggers[nbttagcompound.getInteger("trigger[" + i + "]")];
}
// Force any triggers to be resolved
fixTriggers();
for (int i = 0; i < 8; ++i)
if (nbttagcompound.hasKey("triggerParameters[" + i + "]")) {
triggerParameters[i] = new TriggerParameter();
triggerParameters[i].readFromNBT(
nbttagcompound.getCompoundTag("triggerParameters[" + i + "]"));
}
}
public Blox[] getEntrances() {
if (entrances == null) {
RelativeBlockVector[] space = gate.getEntrances();
entrances = new Blox[space.length];
int i = 0;
for (RelativeBlockVector vector : space) {
entrances[i++] = getBlockAt(vector);
}
}
return entrances;
}
public Blox[] getFrame() {
if (frame == null) {
RelativeBlockVector[] border = gate.getBorder();
frame = new Blox[border.length];
int i = 0;
for (RelativeBlockVector vector : border) {
frame[i++] = getBlockAt(vector);
}
}
return frame;
}
/** find ON_lowest and OFF_highest as worst-case scenario */
public static void evaluateGateONOFFRatio(Gate g) {
double lowest_on_reu = Double.MAX_VALUE;
double highest_off_reu = Double.MIN_VALUE;
for (int i = 0; i < g.get_logics().size(); ++i) { // for each row in the truth table...
// if (!Args.dontcare_rows.contains(i)) { //don't score dontcare rows
Double reu = g.get_outreus().get(i);
if (g.get_logics().get(i) == 1) {
if (lowest_on_reu > reu) {
lowest_on_reu = reu;
}
} else if (g.get_logics().get(i) == 0) {
if (highest_off_reu < reu) {
highest_off_reu = reu;
}
}
// }
}
// g.get_scores().set_onoff_ratio( Math.log10(lowest_on_reu/highest_off_reu) );
g.get_scores().set_onoff_ratio(lowest_on_reu / highest_off_reu);
}
public static void computeShortestPath(Gate sourceGate) {
sourceGate.shortestTime = 0.;
PriorityQueue<Gate> gateQueue = new PriorityQueue<Gate>();
gateQueue.add(sourceGate);
while (!gateQueue.isEmpty()) {
Gate u = gateQueue.poll();
// Visit each edge exiting u
for (Edge e : u.adjacencies) {
Gate v = e.destGate;
double travelTime = e.travelTime;
double timeThroughU = u.shortestTime + travelTime;
if (timeThroughU < v.shortestTime) {
gateQueue.remove(v);
v.shortestTime = timeThroughU;
v.previous = u;
gateQueue.add(v);
}
}
}
}
/**
* A gate with two transcriptional units (e.g. AND) can have two different wirings. Doesn't matter
* for a gate with one txn unit.
*
* @param g
* @param gate_library
* @param options
*/
public static void setBestVariableMapping(Gate g, GateLibrary gate_library, Args options) {
ArrayList<ArrayList<String>> variable_name_orders =
Permute.getVariableNamePermutation(g.get_variable_names());
Integer best_variable_name_order_index = 0;
Double best_score = 0.0;
int v = 0;
for (ArrayList<String> variable_name_order : variable_name_orders) {
g.get_outreus().clear();
for (int i = 0; i < g.get_logics().size(); ++i) { // rows in truth table
/*if (Args.dontcare_rows.contains(i)) {
g.get_outreus().add(0.0);
continue;
}*/
GateUtil.mapWiresToVariables(g, variable_name_order);
double output_reu =
ResponseFunction.computeOutput(
GateUtil.getVariableValues(g, i, gate_library, options),
g.get_params(),
g.get_equation());
g.get_outreus().add(output_reu);
}
evaluateGate(g, options);
if (g.get_scores().get_score() > best_score) {
best_score = g.get_scores().get_score();
best_variable_name_order_index = v;
}
v++;
}
// this is the critical part, it's ordering the variable names in the list
g.set_variable_names(variable_name_orders.get(best_variable_name_order_index));
}
public void actionPerformed(ActionEvent e) {
List<Resource> loadedDocuments;
try {
// get all the documents loaded in the system
loadedDocuments = Gate.getCreoleRegister().getAllInstances("gate.Document");
} catch (GateException ge) {
// gate.Document is not registered in creole.xml....what is!?
throw new GateRuntimeException(
"gate.Document is not registered in the creole register!\n"
+ "Something must be terribly wrong...take a vacation!");
}
Vector<String> docNames = new Vector<String>();
for (Resource loadedDocument : new ArrayList<Resource>(loadedDocuments)) {
if (corpus.contains(loadedDocument)) {
loadedDocuments.remove(loadedDocument);
} else {
docNames.add(loadedDocument.getName());
}
}
JList docList = new JList(docNames);
docList.getSelectionModel().setSelectionInterval(0, docNames.size() - 1);
docList.setCellRenderer(renderer);
final JOptionPane optionPane =
new JOptionPane(
new JScrollPane(docList), JOptionPane.QUESTION_MESSAGE, JOptionPane.OK_CANCEL_OPTION);
final JDialog dialog =
optionPane.createDialog(CorpusEditor.this, "Add document(s) to this corpus");
docList.addMouseListener(
new MouseAdapter() {
public void mouseClicked(MouseEvent e) {
if (e.getClickCount() == 2) {
optionPane.setValue(JOptionPane.OK_OPTION);
dialog.dispose();
}
}
});
dialog.setVisible(true);
if (optionPane.getValue().equals(JOptionPane.OK_OPTION)) {
int[] selectedIndices = docList.getSelectedIndices();
for (int selectedIndice : selectedIndices) {
corpus.add((Document) loadedDocuments.get(selectedIndice));
}
}
changeMessage();
}
public void updateEntity() {
transport.updateEntity();
logic.updateEntity();
if (internalUpdateScheduled) {
internalUpdate();
internalUpdateScheduled = false;
}
// Do not try to update gates client side.
if (worldObj.isRemote) return;
if (actionTracker.markTimeIfDelay(worldObj, 10)) {
resolveActions();
}
// Update the gate if we have any
if (gate != null) {
gate.update();
}
}
/**
* *********************************************************************
*
* <p>Synopsis [ ]
*
* <p>keep tracing back to child until find one with logics defined assume it has either 1 or 2
* children this method is recursive Note: Recursion is not necessary and does not occur if we
* sort the gates by distance to input, then simulate logic in that order.
*
* <p>logic is computed according to Gate type and input logics
*
* <p>*********************************************************************
*/
public static void simulateLogic(Gate g) {
if (g.is_unvisited()) {
ArrayList<Gate> children = g.getChildren();
for (Gate child : children) {
if (child.is_unvisited()) {
simulateLogic(child); // recursive
}
}
// if all children have been visited, visit the current gate 'g'
g.set_unvisited(false);
g.set_logics(GateUtil.computeGateLogics(g));
}
}
public void onBlockRemoval() {
if (wireSet[IPipe.WireColor.Red.ordinal()]) {
Utils.dropItems(
worldObj, new ItemStack(BuildCraftTransport.redPipeWire), xCoord, yCoord, zCoord);
}
if (wireSet[IPipe.WireColor.Blue.ordinal()]) {
Utils.dropItems(
worldObj, new ItemStack(BuildCraftTransport.bluePipeWire), xCoord, yCoord, zCoord);
}
if (wireSet[IPipe.WireColor.Green.ordinal()]) {
Utils.dropItems(
worldObj, new ItemStack(BuildCraftTransport.greenPipeWire), xCoord, yCoord, zCoord);
}
if (wireSet[IPipe.WireColor.Yellow.ordinal()]) {
Utils.dropItems(
worldObj, new ItemStack(BuildCraftTransport.yellowPipeWire), xCoord, yCoord, zCoord);
}
if (hasGate()) {
gate.dropGate(worldObj, xCoord, yCoord, zCoord);
}
for (ForgeDirection direction : ForgeDirection.VALID_DIRECTIONS) {
if (container.hasFacade(direction)) {
container.dropFacade(direction);
}
if (container.hasPlug(direction)) {
container.removeAndDropPlug(direction);
}
}
if (broadcastRedstone) {
updateNeighbors(false); // self will update due to block id changing
}
}
