@Override
public void run() {
while (true) {
if (istWindows()) aktuell = holeLaufwerkeWindows();
else aktuell = holeLaufwerkeUnix();
if (initial.size() != aktuell.size()) {
if (!initial.containsAll(aktuell)) {
neuesLaufwerk = holePathVonNeuemLaufwerk(initial, aktuell);
textArea.append("Neues Laufwerk endeckt: " + neuesLaufwerk + System.lineSeparator());
this.initial = (ArrayList<Path>) aktuell.clone();
neuesLaufwerkDialog();
} else {
this.initial = (ArrayList<Path>) aktuell.clone();
textArea.append("Laufwerk wurde entfernt" + System.lineSeparator());
}
}
try {
Thread.sleep(5000);
} catch (InterruptedException e) {
System.out.println("Laufwerksprüfung wird abgebrochen");
}
}
}
private Path holePathVonNeuemLaufwerk(ArrayList<Path> initial, ArrayList<Path> aktuell) {
ArrayList<Path> test, test1;
test = (ArrayList<Path>) aktuell.clone();
test1 = (ArrayList<Path>) initial.clone();
test.removeAll(test1);
return test.get(test.size() - 1);
}
public static void doIt() throws Exception {
Scanner scanner = new Scanner(System.in);
Integer currentBalance = scanner.nextInt();
int removeLast, removePenultimate;
StringBuffer buf = new StringBuffer();
ArrayList<Character> chars = new ArrayList<Character>();
for (Character c : currentBalance.toString().toCharArray()) chars.add(c);
ArrayList<Character> c1 = (ArrayList<Character>) chars.clone();
c1.remove(c1.size() - 1);
for (Character cc : c1) buf.append(cc);
removeLast = new Integer(buf.toString());
buf = new StringBuffer();
ArrayList<Character> c2 = (ArrayList<Character>) chars.clone();
c2.remove(c2.size() - 2);
for (Character cc : c2) buf.append(cc);
removePenultimate = new Integer(buf.toString());
System.out.println(Math.max(currentBalance, Math.max(removeLast, removePenultimate)));
}
/** Fire hostDisconnectEvent events. */
void fireDisconnectedEvents() {
ArrayList registered = null;
HostEvent ev = null;
synchronized (listeners) {
registered = (ArrayList) listeners.clone();
}
for (Iterator i = registered.iterator(); i.hasNext(); /* empty */ ) {
HostListener l = (HostListener) i.next();
if (ev == null) {
ev = new HostEvent(this);
}
l.disconnected(ev);
}
}
/**
* Fire VmStatusChangeEvent events to HostListener objects
*
* @param active Set of Integer objects containing the local Vm Identifiers of the active JVMs
* @param started Set of Integer objects containing the local Vm Identifiers of new JVMs started
* since last interval.
* @param terminated Set of Integer objects containing the local Vm Identifiers of terminated JVMs
* since last interval.
*/
private void fireVmStatusChangedEvents(Set active, Set started, Set terminated) {
ArrayList registered = null;
VmStatusChangeEvent ev = null;
synchronized (listeners) {
registered = (ArrayList) listeners.clone();
}
for (Iterator i = registered.iterator(); i.hasNext(); /* empty */ ) {
HostListener l = (HostListener) i.next();
if (ev == null) {
ev = new VmStatusChangeEvent(this, active, started, terminated);
}
l.vmStatusChanged(ev);
}
}
// Fill in weights for specific counting aggregator approaches
//
// Basis function 1: Count of computers running
// Basis function 2: Count of computers running and connected to
// one other running computer
//
// Assuming action succeeds... compute next-state value based on action,
// choose best action.
public Action getBasisAction() {
int best_reboot = -1;
double best_reboot_val = -1d;
for (int c = 1; c <= _nVars; c++) {
ArrayList test_state = (ArrayList) _state.clone();
test_state.set(c - 1 + _nVars, TRUE);
double test_val = evalBasisState(test_state, W_BASIS_1, W_BASIS_2);
if (test_val > best_reboot_val) {
best_reboot_val = test_val;
best_reboot = c;
}
}
return (Action) _mdp._hmName2Action.get("reboot" + best_reboot);
}
/**
* writes table directory.
*
* @throws IOException
*/
private void writeTableDirectory() throws IOException {
int headerLength = m_tables.size() * 16 + 16;
int tableOffset = headerLength;
for (FontFormatWriter table : m_tables) {
table.setOffset(tableOffset);
tableOffset += table.size();
} // for table
ArrayList<FontFormatWriter> tables = (ArrayList<FontFormatWriter>) m_tables.clone();
Collections.sort(
tables,
new Comparator<FontFormatWriter>() {
public int compare(FontFormatWriter a_lhs, FontFormatWriter a_rhs) {
return a_lhs.getTag().compareTo(a_rhs.getTag());
}
public boolean equals(Object a_value) {
return false;
}
});
writeFixed32(1.0);
int numOfTables = tables.size();
writeUInt16(numOfTables);
int searchRange = getSearchRange(numOfTables);
writeUInt16(searchRange);
int entrySelector = getEntrySelector(numOfTables);
writeUInt16(entrySelector);
writeUInt16(numOfTables * 16 - searchRange);
for (FontFormatWriter table : tables) {
writeTag(table.getTag());
writeUInt32(table.getCheckSum());
writeUInt32(table.getOffset());
writeUInt32(table.size());
} // for
// padding is always 4 zeros
for (int i = 0; i < 4; i++) {
writeUInt8(0);
} // for i
}