/**
* Redistributes the net reactions based on the current core and edge reaction models. Especially
* useful when one or more species has been moved from the edge to the core since the last
* pressure-dependent calculation.
*
* @param cerm The current core/edge reaction model
*/
public void updateReactionLists(CoreEdgeReactionModel cerm) throws PDepException {
// Merge the net reaction and nonincluded reactinon lists together
// We will recalculate how to distribute them
LinkedList<PDepReaction> reactionList = new LinkedList<PDepReaction>();
for (int i = 0; i < netReactionList.size(); i++) {
PDepReaction rxn = netReactionList.get(i);
reactionList.add(rxn);
}
for (int i = 0; i < nonincludedReactionList.size(); i++) {
PDepReaction rxn = nonincludedReactionList.get(i);
reactionList.add(rxn);
}
netReactionList.clear();
nonincludedReactionList.clear();
for (int i = 0; i < reactionList.size(); i++) {
PDepReaction forward = reactionList.get(i);
PDepReaction reverse = (PDepReaction) forward.getReverseReaction();
if (forward == null)
throw new PDepException(
"Encountered null forward reaction while updating PDepNetwork reaction lists.");
else if (reverse == null)
throw new PDepException(
"Encountered null reverse reaction while updating PDepNetwork reaction lists.");
if (forward.isCoreReaction(cerm) || reverse.isCoreReaction(cerm))
netReactionList.add(forward);
else if (forward.getReactant().getIncluded() && forward.getProduct().getIncluded())
netReactionList.add(forward);
else nonincludedReactionList.add(forward);
}
}
public static void readOneLineFromFile() throws RuntimeException {
// TODO: read 1 line of the file
LinkedList<String> stringsOfFile = FileManager.readFromFile();
// Each line contains, type, question, answer
if (stringsOfFile == null) {
System.out.println("Line read from file is null");
throw new RuntimeException("File doesn't exist");
}
System.out.println("This list has " + stringsOfFile.size() + " strings");
for (int i = 0; i < stringsOfFile.size() - 1; ) {
Wrapper current = new Wrapper();
// Put the linked list to the wrapper class consecutively
current.questionType = stringsOfFile.get(i++);
current.question = stringsOfFile.get(i++);
current.answer = stringsOfFile.get(i++);
// Add this question to the question collection
questionCollection.add(current);
}
// Load the first question
currentQuestion = questionCollection.get(currentQuestionIndex);
// Update the question count
questionCount = questionCollection.size();
// Parse the line
System.out.println("Finished parsing file");
}
public JLocalVariable getLocalVariable(int index) {
for (int i = 0; i < localVariables.size(); i++) {
if (((JLocalVariable)localVariables.get(i)).index == index)
return (JLocalVariable)localVariables.get(i);
}
return null;
}
/**
* this method removes the last element of the formula, and returns whether the element removed is
* an operator or an input:
*
* @return true if it is an operator, false otherwise
* @exception SyntaxErrorException TO COMMENT FURTHER
*/
public boolean removeFromFormula() throws SyntaxErrorException {
boolean isOperator = true;
TreeCell currentCell;
if (nextEntry == 0) // only one value
{
currentCell = opList.get(0);
} else if ((nextEntry < opList.size())
&& (opList.get(nextEntry).getstatusCell() != TreeCell.NOT_COMPLETED)) {
currentCell = opList.get(nextEntry);
} else {
currentCell = opList.get(nextEntry - 1); // get the current cell that we will be using
}
try {
isOperator = currentCell.removeInCell();
if (!isOperator) this.removeLeaveTotal();
if (currentCell.getstatusCell() == TreeCell.NOT_COMPLETED) {
if (nextEntry > 0) nextEntry--;
if (nextEntry < opList.size()) opList.remove(currentCell);
} else if ((currentCell.getstatusCell() == TreeCell.LEFT_COMPLETED))
nextEntry = this.opList.size();
else if (nextEntry < opList.size()) {
nextEntry++;
}
return isOperator;
} catch (SyntaxErrorException e) {
throw e;
}
}
public void actionPerformed(ActionEvent event) {
int i;
JButton aux = (JButton) event.getSource();
if (aux == closeCompra) {
try {
String[] information = {
JOptionPane.showInputDialog(null, "nombre"),
JOptionPane.showInputDialog(null, "numero de targeta")
};
ObjectOutputStream oos = new ObjectOutputStream(client.getOutputStream());
oos.writeObject(information);
oos.flush();
oos.writeObject(products);
oos.flush();
oos.writeObject(comprados);
oos.flush();
cleanTable();
comprados.clear();
} catch (Exception e) {
System.out.print("\nerror al cerrar la compra " + e.getMessage());
}
return;
}
for (i = 0; aux != mostrador.addCar[i]; i++) {;
}
if (products.get(i).getPiesas() > 0) {
products.get(i).popParts();
addCompra(products.get(i));
total.setText("total: " + comprados.getLast().getTotal());
} else {
JOptionPane.showMessageDialog(null, "no seas menso ya no hay mas piesas! :@");
}
}
public LinkedList<Trigger> listaTrigger(String nombreT, Connection con) throws SQLException {
Statement s = con.createStatement();
LinkedList<Trigger> lT = new LinkedList();
LinkedList<String> nombTrigger = nombreTrigger(nombreT, s);
ResultSet rs;
String disparador = null;
for (int i = 0; i < nombTrigger.size(); i++) {
LinkedList<String> condTrigger = new LinkedList();
rs =
s.executeQuery(
"SELECT event_manipulation,action_timing FROM information_schema.triggers where trigger_name ='"
+ nombTrigger.get(i)
+ "' order by event_manipulation");
int u = 0;
while (rs.next()) {
u++;
}
rs =
s.executeQuery(
"SELECT event_manipulation,action_timing FROM information_schema.triggers where trigger_name ='"
+ nombTrigger.get(i)
+ "' order by event_manipulation");
while (rs.next()) {
disparador = rs.getObject("action_timing").toString();
condTrigger.add(rs.getObject("event_manipulation").toString());
// System.out.println("COND "+nombTrigger.get(i)+" -
// "+rs.getObject("event_manipulation").toString());
}
lT.add(new Trigger(nombTrigger.get(i), condTrigger, disparador));
}
s.close();
return lT;
}
static void run(String[] args) throws IOException {
Instruction.genSSA();
Parser p = new Parser(args[0]);
p.startParse();
ControlFlowGraph cfg = p.getCFG();
VariableSet varSet = p.getVarSet();
VCGCreator normVcg = new VCGCreator(args[0], cfg);
normVcg.run();
if (cp) {
CopyPropagation g = new CopyPropagation(p);
g.runCP();
p.getCFG().print();
VCGCreator cpVcg = new VCGCreator(args[0], cfg, "CP");
cpVcg.run();
}
if (cse) {
CSE cse = new CSE(p.getCFG());
cse.runCSE();
p.getCFG().print();
String addName = "CSE";
if (cp) addName = "CP" + addName;
VCGCreator cseVcg = new VCGCreator(args[0], cfg, addName);
cseVcg.run();
}
LiveTime lt = new LiveTime(cfg);
lt.analysisLiveTime();
int maxReg = 8;
if (dlxreg) maxReg = 27;
LinearScan allocator = new LinearScan(lt.getLr(), maxReg);
allocator.allocate();
StaticSingleAssignment.setShowType(StaticSingleAssignment.showREG);
allocator.regAllocate(cfg);
VCGCreator regVCG = new VCGCreator(args[0], cfg, true, "REG");
regVCG.run();
DLXCodeGeneration codeGen = new DLXCodeGeneration(varSet, cfg);
LinkedList<Location> lsp = allocator.getSp1Sp2();
codeGen.setSpillRegister(lsp.get(0), lsp.get(1));
codeGen.assembleDLX();
StaticSingleAssignment.setShowType(StaticSingleAssignment.showAsm);
varSet.printLayout();
VCGCreator asmVCG = new VCGCreator(args[0], cfg, true, "ASM");
asmVCG.run();
if (simulator) {
DLXCode exe = new DLXCode(codeGen);
exe.asmToBinary();
int[] program = exe.getProgram();
if (debug) {
DLXdebuger.load(program);
DLXdebuger.debugExecute();
} else {
DLX.load(program);
DLX.execute();
}
}
}
// Skapar de grafiska komponenterna för menyn
public void createLabels() {
// Skapar textfält för nick och intellegens och lägger till dem i en lista
for (int i = 0; i < 4; i++) {
textfields.add(new JTextField(20));
intfields.add(new JTextField(20));
}
// Skapar checkboxes för att bestämma om spelaren är ett AI och lägger till den i en lista
for (int i = 0; i < 4; i++) {
boxes.add(new JCheckBox());
boxes.get(i).addActionListener(this);
}
// Lägger till labels med förbestämd text i panelen
for (int i = 0; i < 4; i++) {
panel.add(new JLabel(labeltext[i]));
}
// Lägger till textfields och checkboxes i panelen
for (int i = 4; i < 8; i++) {
panel.add(new JLabel(labeltext[i]));
panel.add(textfields.get(i - 4));
panel.add(boxes.get(i - 4));
panel.add(intfields.get(i - 4));
intfields.get(i - 4).setVisible(false);
}
// Lägger till några tomma labels i panelen för att skapa mellanrum och symetri
for (int i = 0; i < 5; i++) {
panel.add(new JLabel(" "));
}
// Lägger till knapparna och lägger actionlisteners på dem
panel.add(go);
go.addActionListener(this);
panel.add(help);
help.addActionListener(this);
}
/**
* Notification that its safe to update the node now with any operations that could potentially
* effect the node's bounds.
*
* @param src The node or Node Component that is to be updated.
*/
public void updateNodeBoundsChanges(Object src) {
Node kid;
int size = (removedChildren == null) ? 0 : removedChildren.size();
for (int i = 0; i < size; i++) {
kid = (Node) removedChildren.get(i);
implGroup.removeChild(kid);
}
size = (addedChildren == null) ? 0 : addedChildren.size();
for (int i = 0; i < size; i++) {
kid = (Node) addedChildren.get(i);
implGroup.addChild(kid);
}
addedChildren.clear();
removedChildren.clear();
if (maskChanged) {
implGroup.setMask(vfVisible);
maskChanged = false;
}
}
protected void listMouseClicked(EventObject e) {
for (ListLevel listLevelTuple : depthLists) {
listLevelTuple.list.setCellRenderer(new SceneDepthListCellRender());
}
JList list = (JList) e.getSource();
selectedScene = (Scene) list.getSelectedValue();
jumpToBt.setEnabled(true);
jumpToBt.setText("Jump to [" + selectedScene.getName() + "]");
int idx = depthLists.indexOf(new ListLevel(-1, list));
assert idx != -1 : "Should have found a scenesList";
if (idx == 0) {
JList startList = depthLists.get(1).list;
startList.setCellRenderer(new ToCellRenderer(selectedScene));
Util.showComponent(startList);
} else if (idx > 0) {
JList fromList = depthLists.get(idx - 1).list;
logger.debug("Before: " + fromList.getSelectedValue());
fromList.setCellRenderer(new FromCellRenderer(selectedScene));
Util.showComponent(fromList);
if (idx + 1 < depthLists.size()) {
JList afterList = depthLists.get(idx + 1).list;
logger.debug("After: " + afterList.getSelectedValue());
afterList.setCellRenderer(new ToCellRenderer(selectedScene));
Util.showComponent(afterList);
}
}
Util.showComponent(panel);
}
/**
* Détermine si la forme engendrée par les 3 cases représente un bateau correct ou non
*
* @param lc
* @return
*/
private boolean isBoatCorrect(LinkedList<Case> lc) {
if (lc.size() != 3) return false;
// Order the list
LinkedList<Case> nlc = new LinkedList<Case>();
for (Entry<String, Integer> en : this.matchKeys.entrySet())
for (Case c : lc) if (c.getName().equals(en.getKey())) nlc.add(c);
String firstCase = nlc.get(0).getName();
String secondCase = nlc.get(1).getName();
String thirdCase = nlc.get(2).getName();
List<String[]> rows = new ArrayList<String[]>();
rows.add(this.numbersRowTitles);
rows.add(this.firstRowTitles);
rows.add(this.secondRowTitles);
rows.add(this.thirdRowTitles);
for (int i = 0; i < rows.size(); i++) {
if (getIndexOf(rows.get(i), firstCase) != -1)
return this.checkRow(rows, i, firstCase, secondCase, thirdCase);
}
return false;
}
private static LinkedList<Coords> polarSort(LinkedList<Coords> list) {
// find point with lowest x-coord
int i = 0;
double lowest = 9999999999.0;
int lowIndex = 0;
Coords tmp;
while (i < list.size()) {
tmp = list.get(i);
if (tmp.getX() < lowest) {
lowest = tmp.getX();
lowIndex = i;
} else if (tmp.getX() == lowest) {
if (tmp.getY() < list.get(lowIndex).getY()) {
lowIndex = i;
}
}
i++;
}
Coords lowestCoord = list.remove(lowIndex);
LinkedList<Coords> sorted = new LinkedList<Coords>();
sorted.add(list.poll());
while (list.size() > 0) {
tmp = list.poll();
i = sorted.size();
while (i > 0 && compVect(lowestCoord, sorted.get(i - 1), tmp) < 0.0) {
i--;
}
sorted.add(i, tmp);
}
sorted.add(0, lowestCoord);
return sorted;
}
/**
* Removes the specified module from the registry AND the simulation bus.
*
* @param index Index of the module to be removed.
* @param sim Simulation core that is being run.
*/
public int removeModule(int index) {
if (index >= modules.size() || index < 0) {
return Msg.E("removeModule: invalid index:" + index, Constants.PLP_GENERIC_ERROR, null);
}
plp.sim.bus.remove(positionInBus.get(index));
positionInBus.remove(index);
if (modules.get(index).threaded && modules.get(index).isAlive()) {
modules.get(index).stop = true;
}
modules.get(index).remove();
modules.remove(index);
regSize.remove(index);
type.remove(index);
if (moduleFrames.get(index) != null && moduleFrames.get(index) instanceof JFrame)
((JFrame) moduleFrames.get(index)).dispose();
moduleFrames.remove(index);
// we have to update bus positions
for (int i = index; i < positionInBus.size(); i++) {
Integer val = positionInBus.get(i);
positionInBus.set(i, val - 1);
}
return Constants.PLP_OK;
}
public static String obfuscate(String email) {
LinkedList<String> emailList = new LinkedList<>();
// Attack the dots
String[] chunks = email.split(Pattern.quote("."));
String[] atChunks = null;
int dotCounter = chunks.length - 1;
for (int i = 0; i < chunks.length; i++) {
emailList.addLast(chunks[i]);
if (dotCounter != 0) {
emailList.addLast("[.]");
dotCounter--;
}
}
// Attack the @
for (int j = 0; j < emailList.size(); j++) {
if (emailList.get(j).contains("@")) {
atChunks = emailList.get(j).split(Pattern.quote("@"));
emailList.remove(j);
emailList.add(j, atChunks[0]);
emailList.add(j + 1, "[at]");
emailList.add(j + 2, atChunks[1]);
}
}
System.out.println(toString(emailList));
return toString(emailList);
}
public static void main(String[] args) throws IOException {
BufferedReader inp = new BufferedReader(new InputStreamReader(System.in));
ArrayList<ArrayList<Pair>> G;
int T = Integer.parseInt(inp.readLine());
int startVertex = 0;
int graphSize = 50;
for (int test = 0; test < T; ++test) {
int numberOfEdges = Integer.parseInt(inp.readLine());
G = new ArrayList<ArrayList<Pair>>();
for (int index = 0; index < graphSize; ++index) G.add(new ArrayList<Pair>());
for (int edge = 0; edge < numberOfEdges; ++edge) {
String[] tokens = inp.readLine().split("\\s");
int u = Integer.parseInt(tokens[0]);
--u;
int v = Integer.parseInt(tokens[1]);
--v;
startVertex = u;
G.get(u).add(new Pair(v, 1));
G.get(v).add(new Pair(u, 1));
}
System.out.println("Case #" + (test + 1));
if (isEulerian(G)) {
LinkedList<Integer> path = new LinkedList<Integer>();
eulerPath(G, path.listIterator(), startVertex);
for (int index = 0; index < path.size() - 1; ++index)
System.out.println((path.get(index) + 1) + " " + (path.get(index + 1) + 1));
if (path.size() > 0)
System.out.println((path.get(path.size() - 1) + 1) + " " + (path.get(0) + 1));
} else System.out.println("some beads may be lost");
if (test != T - 1) System.out.println();
}
}
public String createTable(String command) {
String db = currentDB();
LinkedList<String> ret = new LinkedList<String>();
String table = command.substring(12, command.length());
table = table.substring(0, table.indexOf(" "));
ret = executeCommand("/tapi /relation_exists " + table);
executeCommand("/tapi /use_db " + db);
if (ret.get(0).contains("true")) {
return "exists";
} else {
ret = executeCommand(command);
if (ret.get(0).contains("error")) return "error";
return "success";
}
}
@Override
protected void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
setRequestedOrientation(ActivityInfo.SCREEN_ORIENTATION_PORTRAIT);
setContentView(R.layout.detalles_if36);
inten = new Intent(this, BBVAfechaj3Activity.class);
TextView encabezado = (TextView) findViewById(R.id.resti36);
TextView g = (TextView) findViewById(R.id.dgi36);
TextView ta = (TextView) findViewById(R.id.dai36);
TextView tr = (TextView) findViewById(R.id.dri36);
TextView l = (TextView) findViewById(R.id.dlsi36);
LinkedList<BBVAfechaj7Activity> list =
Bundfechaj9Activity.getInstancia().getListDTODti(getApplicationContext());
if (list.size() != 0) {
String result = list.get(35).getDetalle();
String[] r = result.split("/");
if (r.length != 0 && !list.get(35).getDetalle().equalsIgnoreCase(" ")) {
encabezado.setText(r[0]);
g.setText(r[1]);
ta.setText(r[2]);
tr.setText(r[3]);
l.setText(r[4]);
} else if (r.length == 0) {
encabezado.setText(" ");
g.setText(" ");
ta.setText(" ");
tr.setText(" ");
l.setText(" ");
}
} else if (list.size() == 0) {
Log.d("Error", "No se ha cargado la Base de Dtos");
}
}
/**
* Creates a new restriction
*
* @param String restriction
* @return String
*/
public String createRestriction(String restriction) {
String db = currentDB();
String command = "/tapi " + restriction;
LinkedList<String> res = executeCommand(command);
boolean success = true;
String result = "";
if (!res.isEmpty())
if (res.get(0).contains("$error")) {
success = false;
for (int i = 2; i < res.size(); i++) {
String aux = res.get(i).trim();
result = result + aux + "\n";
}
}
executeCommand("/tapi /use_db " + db);
if (success) return "$success";
else return result;
}
public KMeansResult cluster(double[][] centroids, double[][] instances, double threshold) {
int itr = -1;
// initialize the result
KMeansResult result = new KMeansResult();
LinkedList<Double> distortionList = new LinkedList<Double>();
result.clusterAssignment = new int[instances.length];
boolean completed = false;
// loop until finally done
while (!completed) {
// increment iteration
itr++;
// call the assignInstance method to assign the instances to centroids
assignInstance(centroids, instances, result);
// check orphaned centroid
boolean noOrphaned = false;
while (!noOrphaned) {
int orphanNum = -1;
orphanNum = checkOrphan(centroids, result);
// if the centroid is orphaned, then assign it as scenario requores
if (orphanNum >= 0) {
assignOrphan(orphanNum, centroids, instances, result);
} else {
noOrphaned = true;
}
}
// update centroids
updateCentroids(centroids, instances, result);
// compute new distortion
double distortion = calculateDistortion(centroids, instances, result);
// track the distortion
distortionList.add(distortion);
// check whether the algorithm should terminate
if (itr > 0
&& Math.abs(
(distortionList.get(itr) - distortionList.get(itr - 1))
/ distortionList.get(itr - 1))
< threshold) {
completed = true;
}
}
// set centroids to KMeansResult final centroids array
result.centroids = centroids;
// initialize result's distortion array
result.distortionIterations = new double[distortionList.size()];
// record distortionList into result of distortion array
for (int i = 0; i < distortionList.size(); i++) {
result.distortionIterations[i] = distortionList.get(i);
}
return result;
}
public boolean pk(String db, String table, LinkedList<String> pk) {
String currentDB = currentDB();
LinkedList<String> res = executeCommand("/tapi /use_db " + db);
res = executeCommand("/dbschema");
String sPk = "";
for (int i = 0; i < pk.size(); i++) sPk += pk.get(i) + ", ";
sPk = sPk.substring(0, sPk.length() - 2);
String command = "/tapi :-pk(" + table + ", [" + sPk + "])";
res = executeCommand(command);
executeCommand("/tapi /use_db " + currentDB);
if (res.size() == 0) return true;
if (res.get(0).contains("$error")) return false;
return true;
}
public void testPainters() throws Exception {
LinkedList<Painter> painters = panel.getPainters();
assertEquals(2, painters.size());
assertEquals(BackgroundPainter.class, painters.get(0).getClass());
assertEquals(BorderPainter.class, painters.get(1).getClass());
}
/**
* Returns the full name of the view
*
* @param String database, String view
* @return String
*/
public String getView(String database, String oldView) {
String view = "";
String childClear = "";
boolean found = false;
int i = 0;
LinkedList<String> views = getViews(database);
while ((i < views.size()) && (!found)) {
String aux = views.get(i);
aux = aux.substring(0, aux.indexOf("("));
if (aux.equals(oldView)) {
view = views.get(i);
found = true;
}
i++;
}
if (found) {
String[] cleanViews = view.split(",");
for (int j = 0; j < cleanViews.length; j++) {
if (j == (cleanViews.length - 1))
childClear = childClear + cleanViews[j].substring(0, cleanViews[j].indexOf(":")) + ")";
else childClear = childClear + cleanViews[j].substring(0, cleanViews[j].indexOf(":")) + ",";
}
}
return childClear;
}
public void instantiateSpacePoints() {
int spaceWidth = this.getWidth() / ((spaceList.size() + 4) / 4);
int spaceHeight = this.getHeight() / ((spaceList.size() + 4) / 4);
int xpos = 0;
int ypos = 0;
int pos = 0;
for (int i = 0; i <= (spaceList.size() - 1) / 4; i++) {
spaceList.get(pos).setPoint(new Point(xpos, ypos));
xpos += spaceWidth;
pos++;
}
for (int i = (spaceList.size() - 1) / 4 + 1; i <= (spaceList.size() - 1) / 2; i++) {
spaceList.get(pos).setPoint(new Point(xpos, ypos));
ypos += spaceHeight;
pos++;
}
for (int i = (spaceList.size() - 1) / 2 + 1; i <= (spaceList.size() - 1) * 3 / 4; i++) {
spaceList.get(pos).setPoint(new Point(xpos, ypos));
xpos -= spaceWidth;
pos++;
}
for (int i = (spaceList.size() - 1) * 3 / 4 + 1; i <= (spaceList.size() - 1); i++) {
spaceList.get(pos).setPoint(new Point(xpos, ypos));
ypos -= spaceHeight;
pos++;
}
}
/**
* Returns the type of the view: SQL or RA
*
* @return String
*/
public String getViewType(String database, String view) {
LinkedList<String> ret = new LinkedList<String>();
ret = executeCommand("/tapi /use_db " + database);
ret = executeCommand("/tapi /dbschema " + view);
String result = "";
boolean typeFound = false;
int i = 0;
while (!typeFound && i < ret.size()) {
if (ret.get(i).contains("$sql")) {
result = "SQL";
typeFound = true;
} else if (ret.get(i).contains("$ra")) {
result = "RA";
typeFound = true;
}
i++;
}
return result;
}
// 一个经常使用的函数,当MathSignQueue的一部分由于得出值被化简,则这一部分将被一个具体的实数值替代
public void simplify(int start, int end, MathSign result) {
result.setIndex(mMathSigns.get(start).start(), mMathSigns.get(end - 1).end());
while (end-- > start) {
mMathSigns.remove(start);
}
mMathSigns.add(start, result);
}
/**
* Simplification of the line specified by "points" field. Remainin points are included to "used"
* set.
*
* @param start - starting index
* @param end - ending index
* @param epsilon - min point-to line distance in pixels (tolerance)
* @param depth - recursion level
*/
private void douglasPeucker(int start, int end, double epsilon, int depth) {
if (depth > 500) return;
if (end - start < 1) return; // incorrect invocation
LatLon first = points.get(start);
LatLon last = points.get(end);
Point firstp = getPoint(first);
Point lastp = getPoint(last);
used.add(first);
used.add(last);
if (end - start < 2) return;
int farthest_node = -1;
double farthest_dist = 0;
double d = 0;
for (int i = start + 1; i < end; i++) {
d = pointLineDistance(getPoint(points.get(i)), firstp, lastp);
if (d > farthest_dist) {
farthest_dist = d;
farthest_node = i;
}
}
if (farthest_dist > epsilon) {
douglasPeucker(start, farthest_node, epsilon, depth + 1);
douglasPeucker(farthest_node, end, epsilon, depth + 1);
}
}
public TraversePointInfo startTraverse(Point hitPoint, float maxDistance) {
float distance = 9999, smallestDistance = 9999;
nodes = renderNodes;
PathNode t = null;
for (int i = 0; i < nodes.size(); i++) {
distance = nodes.get(i).getLocation().distancePoint2Point(hitPoint);
// Helper.printKeyVal("PathNode: ", nodes.get(i).getLocation().toString());
// Helper.printKeyVal("Distance", distance);
if (distance < smallestDistance) {
// Helper.printKeyVal("New smallest point: ", nodes.get(i).getLocation().toString());
// Helper.printKeyVal("New smallest Distance", distance);
smallestDistance = distance;
t = nodes.get(i);
}
}
if (smallestDistance > maxDistance) return null;
TraversePointInfo info = new TraversePointInfo();
info.setPathNode(t);
info.setTraverseLocation(t.getLocation());
info.setDistance(0);
distance = 0;
for (int i = 0; i < nodes.size(); i++) {
if (nodes.get(i).equals(t)) break;
distance += nodes.get(i).getRightDistance();
}
info.setTotalDistanceInPath(distance);
// Helper.printKeyVal("Total Distance Set: ", info.getTotalDistanceInPath());
info.setPath(this);
return info;
}
public void Draw(Canvas canvas) {
canvas.drawBitmap(ret, pos.x, canvas.getHeight() - (pos.y + scale.y), null);
// testing line------------------------------------------------//
if (state == STATE.DRAGGING) {
paint.setColor(Color.RED);
paint.setStrokeWidth(10);
// From startPos to current dragging pos
canvas.drawLine(
startPos.x,
canvas.getHeight() - startPos.y,
fingerPos.x,
canvas.getHeight() - fingerPos.y,
paint);
}
// draw the rubbish------------------------------------------//
for (int i = 0; i < totalDragged; ++i) {
if (rubbishPile.get(i).GetActive()) rubbishPile.get(i).Draw(canvas);
}
paint.setARGB(255, 255, 0, 0);
paint.setStrokeWidth(120); // how thick you want the text to be in terms of pixel
paint.setTextSize(60);
canvas.drawText("Active: " + totalDragged, 130, 80, paint);
bound.DrawDebug(canvas);
}
public RC3500_A_IP44_DE(
Context context, Long id, String name, LinkedList<Boolean> dips, Long roomId) {
super(context, id, name, BRAND, MODEL, TYPE_DIPS, roomId);
dipList = new LinkedList<>();
if (dips != null && dips.size() == 10) {
dipList.add(new DipSwitch("1", dips.get(0)));
dipList.add(new DipSwitch("2", dips.get(1)));
dipList.add(new DipSwitch("3", dips.get(2)));
dipList.add(new DipSwitch("4", dips.get(3)));
dipList.add(new DipSwitch("5", dips.get(4)));
dipList.add(new DipSwitch("A", dips.get(5)));
dipList.add(new DipSwitch("B", dips.get(6)));
dipList.add(new DipSwitch("C", dips.get(7)));
dipList.add(new DipSwitch("D", dips.get(8)));
dipList.add(new DipSwitch("E", dips.get(9)));
} else {
dipList.add(new DipSwitch("1", false));
dipList.add(new DipSwitch("2", false));
dipList.add(new DipSwitch("3", false));
dipList.add(new DipSwitch("4", false));
dipList.add(new DipSwitch("5", false));
dipList.add(new DipSwitch("A", false));
dipList.add(new DipSwitch("B", false));
dipList.add(new DipSwitch("C", false));
dipList.add(new DipSwitch("D", false));
dipList.add(new DipSwitch("E", false));
}
buttons.add(new Button(Button.BUTTON_ON_ID, context.getString(R.string.on), id));
buttons.add(new Button(Button.BUTTON_OFF_ID, context.getString(R.string.off), id));
}
public void tick() {
To4ka nOVApoZiciqTo4ka =
new To4ka(
(zmiiskoTqlo.get(0).daiXiksa() + velocityX),
(zmiiskoTqlo.get(0).daiIgreka() + velocityY));
if (nOVApoZiciqTo4ka.daiXiksa() > Igr1t1.WIDTH - 20) {
Igr1t1.gameRunning = false;
} else if (nOVApoZiciqTo4ka.daiXiksa() < 0) {
Igr1t1.gameRunning = false;
} else if (nOVApoZiciqTo4ka.daiIgreka() < 0) {
Igr1t1.gameRunning = false;
} else if (nOVApoZiciqTo4ka.daiIgreka() > Igr1t1.height - 20) {
Igr1t1.gameRunning = false;
} else if (Igr1t1.apalkata.daiTo4ka().equals(nOVApoZiciqTo4ka)) {
zmiiskoTqlo.add(Igr1t1.apalkata.daiTo4ka());
Igr1t1.apalkata = new Qbalkata(this);
Igr1t1.to4ki += 50;
} else if (zmiiskoTqlo.contains(nOVApoZiciqTo4ka)) {
Igr1t1.gameRunning = false;
System.out.println("You ate yourself");
}
for (int i = zmiiskoTqlo.size() - 1; i > 0; i--) {
zmiiskoTqlo.set(i, new To4ka(zmiiskoTqlo.get(i - 1)));
}
zmiiskoTqlo.set(0, nOVApoZiciqTo4ka);
}
