/**
* Stores the received subsctiption and notifies all waiting on this object
*
* @param evt the SubscriptionEvent containing the corresponding contact
*/
public void contactModified(ContactPropertyChangeEvent evt) {
synchronized (this) {
logger.debug("Collected evt(" + collectedEvents.size() + ")= " + evt);
collectedEvents.add(evt);
notifyAll();
}
}
public void providerStatusMessageChanged(PropertyChangeEvent evt) {
synchronized (this) {
logger.debug("Collected stat.msg. evt(" + collectedPresEvents.size() + ")= " + evt);
collectedStatMsgEvents.add(evt);
notifyAll();
}
}
/**
* Stores the received subsctiption and notifies all waiting on this object
*
* @param evt the SubscriptionEvent containing the corresponding contact
*/
public void subscriptionMoved(SubscriptionMovedEvent evt) {
synchronized (this) {
logger.debug("Collected evt(" + collectedEvents.size() + ")= " + evt);
collectedEvents.add(evt);
notifyAll();
}
}
/**
* Called whnever an indication is received that an existing server stored group has been
* resolved.
*
* @param evt a ServerStoredGroupChangeEvent containing a reference to the resolved group.
*/
public void groupResolved(ServerStoredGroupEvent evt) {
synchronized (this) {
logger.debug("Collected evt(" + collectedEvents.size() + ")= " + evt);
collectedEvents.add(evt);
notifyAll();
}
}
public void providerStatusChanged(ProviderPresenceStatusChangeEvent evt) {
synchronized (this) {
logger.debug("Collected evt(" + collectedPresEvents.size() + ")= " + evt);
collectedPresEvents.add(evt);
notifyAll();
}
}
protected void checkLeaf(SimulatedArchivalUnit sau) {
log.debug("checkLeaf()");
String parent = sau.getUrlRoot() + "/branch1";
CachedUrlSetSpec spec = new RangeCachedUrlSetSpec(parent);
CachedUrlSet set = sau.makeCachedUrlSet(spec);
Iterator setIt = set.contentHashIterator();
ArrayList childL = new ArrayList(16);
while (setIt.hasNext()) {
childL.add(((CachedUrlSetNode) setIt.next()).getUrl());
}
String[] expectedA =
new String[] {
parent,
parent + "/001file.html",
parent + "/001file.txt",
parent + "/002file.html",
parent + "/002file.txt",
parent + "/branch1",
parent + "/branch1/001file.html",
parent + "/branch1/001file.txt",
parent + "/branch1/002file.html",
parent + "/branch1/002file.txt",
parent + "/branch1/index.html",
parent + "/branch2",
parent + "/branch2/001file.html",
parent + "/branch2/001file.txt",
parent + "/branch2/002file.html",
parent + "/branch2/002file.txt",
parent + "/branch2/index.html",
parent + "/index.html",
};
assertIsomorphic(expectedA, childL);
}
protected void checkRoot(SimulatedArchivalUnit sau) {
log.debug("checkRoot()");
CachedUrlSet set = sau.getAuCachedUrlSet();
Iterator setIt = set.flatSetIterator();
ArrayList childL = new ArrayList(1);
CachedUrlSet cus = null;
while (setIt.hasNext()) {
cus = (CachedUrlSet) setIt.next();
childL.add(cus.getUrl());
}
String urlRoot = sau.getUrlRoot();
String[] expectedA = new String[1];
expectedA[0] = urlRoot;
assertIsomorphic(expectedA, childL);
setIt = cus.flatSetIterator();
childL = new ArrayList(7);
while (setIt.hasNext()) {
childL.add(((CachedUrlSetNode) setIt.next()).getUrl());
}
expectedA =
new String[] {
urlRoot + "/001file.html",
urlRoot + "/001file.txt",
urlRoot + "/002file.html",
urlRoot + "/002file.txt",
urlRoot + "/branch1",
urlRoot + "/branch2",
urlRoot + "/index.html"
};
assertIsomorphic(expectedA, childL);
}
/** Values.toArray contains all values */
public void testDescendingValuesToArray() {
ConcurrentNavigableMap map = dmap5();
Collection v = map.values();
Object[] ar = v.toArray();
ArrayList s = new ArrayList(Arrays.asList(ar));
assertEquals(5, ar.length);
assertTrue(s.contains("A"));
assertTrue(s.contains("B"));
assertTrue(s.contains("C"));
assertTrue(s.contains("D"));
assertTrue(s.contains("E"));
}
/**
* Stores the received status change event and notifies all waiting on this object
*
* @param evt the SubscriptionEvent containing the corresponding contact
*/
public void contactPresenceStatusChanged(ContactPresenceStatusChangeEvent evt) {
synchronized (this) {
// if the user has specified event details and the received
// event does not match - then ignore it.
if (this.trackedScreenName != null
&& !evt.getSourceContact().getAddress().equals(trackedScreenName)) return;
if (status != null && status != evt.getNewStatus()) return;
logger.debug("Collected evt(" + collectedEvents.size() + ")= " + evt);
collectedEvents.add(evt);
notifyAll();
}
}
/**
* Blocks until at least one status message event is received or until waitFor milliseconds pass
* (whichever happens first).
*
* @param waitFor the number of milliseconds that we should be waiting for a status message
* event before simply bailing out.
*/
public void waitForStatMsgEvent(long waitFor) {
logger.trace("Waiting for a provider status message event.");
synchronized (this) {
if (collectedStatMsgEvents.size() > 0) {
logger.trace("Stat msg. evt already received. " + collectedStatMsgEvents);
return;
}
try {
wait(waitFor);
if (collectedStatMsgEvents.size() > 0) logger.trace("Received a prov. stat. msg. evt.");
else logger.trace("No prov. stat msg. received for " + waitFor + "ms.");
} catch (InterruptedException ex) {
logger.debug("Interrupted while waiting for a status msg evt", ex);
}
}
}
/**
* Blocks until at least one event is received or until waitFor milliseconds pass (whichever
* happens first).
*
* @param waitFor the number of milliseconds that we should be waiting for an event before
* simply bailing out.
*/
public void waitForPresEvent(long waitFor) {
logger.trace("Waiting for a change in provider status.");
synchronized (this) {
if (collectedPresEvents.size() > 0) {
logger.trace("Change already received. " + collectedPresEvents);
return;
}
try {
wait(waitFor);
if (collectedPresEvents.size() > 0) logger.trace("Received a change in provider status.");
else logger.trace("No change received for " + waitFor + "ms.");
} catch (InterruptedException ex) {
logger.debug("Interrupted while waiting for a provider evt", ex);
}
}
}
/**
* Blocks until at least one event is received or until waitFor milliseconds pass (whichever
* happens first).
*
* @param waitFor the number of milliseconds that we should be waiting for an event before
* simply bailing out.
*/
public void waitForEvent(long waitFor) {
logger.trace("Waiting for a persistent subscription event");
synchronized (this) {
if (collectedEvents.size() > 0) {
logger.trace("SubEvt already received. " + collectedEvents);
return;
}
try {
wait(waitFor);
if (collectedEvents.size() > 0) logger.trace("Received a SubEvt in provider status.");
else logger.trace("No SubEvt received for " + waitFor + "ms.");
} catch (InterruptedException ex) {
logger.debug("Interrupted while waiting for a subscription evt", ex);
}
}
}
/**
* Blocks until at least one event is received or until waitFor miliseconds pass (whicever
* happens first).
*
* @param waitFor the number of miliseconds that we should be waiting for an event before simply
* bailing out.
*/
public void waitForEvent(long waitFor) {
synchronized (this) {
if (collectedEvents.size() > 0) return;
try {
wait(waitFor);
} catch (InterruptedException ex) {
logger.debug("Interrupted while waiting for a subscription evt", ex);
}
}
}
public void testCreateDB() {
ArrayList<String> al = new ArrayList<String>();
Iterator<HistoryID> i = this.historyService.getExistingIDs();
while (i.hasNext()) {
HistoryID id = i.next();
String[] components = id.getID();
if (components.length == 2 && "test".equals(components[0])) {
al.add(components[1]);
}
}
int count = al.size();
boolean unique = false;
String lastComp = null;
while (!unique) {
lastComp = Integer.toHexString(random.nextInt());
for (int j = 0; j < count; j++) {
if (lastComp.equals(al.get(j))) {
continue;
}
}
unique = true;
}
HistoryID id = HistoryID.createFromRawID(new String[] {"test", lastComp});
try {
this.historyService.createHistory(id, recordStructure);
} catch (Exception e) {
fail("Could not create database with id " + id + " with error " + e);
}
try {
// after creating, remove it - do not leave content
this.historyService.purgeLocallyStoredHistory(id);
} catch (Exception ex) {
fail("Cannot delete local history with id " + this.history.getID() + " : " + ex.getMessage());
}
}
public void turn(MIMEResolver c) {
ArrayList<Object> l = new ArrayList<Object>();
l.add(err);
l.add(c);
ic.set(l, null);
}
public void testWriteStandardVar() throws Exception {
NetcdfFileWriteable ncfile = new NetcdfFileWriteable(filename, false);
// define dimensions
Dimension latDim = ncfile.addDimension("lat", 2);
Dimension lonDim = ncfile.addDimension("lon", 3);
ArrayList dims = new ArrayList();
dims.add(latDim);
dims.add(lonDim);
// case 1
ncfile.addVariable("t1", DataType.DOUBLE, dims);
ncfile.addVariableAttribute("t1", CDM.SCALE_FACTOR, new Double(2.0));
ncfile.addVariableAttribute("t1", "add_offset", new Double(77.0));
// case 2
ncfile.addVariable("t2", DataType.BYTE, dims);
ncfile.addVariableAttribute("t2", CDM.SCALE_FACTOR, new Short((short) 2));
ncfile.addVariableAttribute("t2", "add_offset", new Short((short) 77));
// case 3
ncfile.addVariable("t3", DataType.BYTE, dims);
ncfile.addVariableAttribute("t3", "_FillValue", new Byte((byte) 255));
// case 4
ncfile.addVariable("t4", DataType.SHORT, dims);
ncfile.addVariableAttribute("t4", CDM.MISSING_VALUE, new Short((short) -9999));
// case 5
ncfile.addVariable("t5", DataType.SHORT, dims);
ncfile.addVariableAttribute("t5", CDM.MISSING_VALUE, new Short((short) -9999));
ncfile.addVariableAttribute("t5", CDM.SCALE_FACTOR, new Short((short) 2));
ncfile.addVariableAttribute("t5", "add_offset", new Short((short) 77));
// case 1
ncfile.addVariable("m1", DataType.DOUBLE, dims);
ncfile.addVariableAttribute("m1", CDM.MISSING_VALUE, -999.99);
// create the file
ncfile.create();
// write t1
ArrayDouble A = new ArrayDouble.D2(latDim.getLength(), lonDim.getLength());
int i, j;
Index ima = A.getIndex();
// write
for (i = 0; i < latDim.getLength(); i++)
for (j = 0; j < lonDim.getLength(); j++) A.setDouble(ima.set(i, j), (double) (i * 10.0 + j));
int[] origin = new int[2];
ncfile.write("t1", origin, A);
// write t2
ArrayByte Ab = new ArrayByte.D2(latDim.getLength(), lonDim.getLength());
ima = Ab.getIndex();
for (i = 0; i < latDim.getLength(); i++)
for (j = 0; j < lonDim.getLength(); j++) Ab.setByte(ima.set(i, j), (byte) (i * 10 + j));
ncfile.write("t2", origin, Ab);
// write t3
ncfile.write("t3", origin, Ab);
// write t4
Array As = new ArrayShort.D2(latDim.getLength(), lonDim.getLength());
ima = As.getIndex();
for (i = 0; i < latDim.getLength(); i++)
for (j = 0; j < lonDim.getLength(); j++) As.setShort(ima.set(i, j), (short) (i * 10 + j));
ncfile.write("t4", origin, As);
As.setShort(ima.set(0, 0), (short) -9999);
ncfile.write("t5", origin, As);
// write m1
ArrayDouble.D2 Ad = new ArrayDouble.D2(latDim.getLength(), lonDim.getLength());
for (i = 0; i < latDim.getLength(); i++)
for (j = 0; j < lonDim.getLength(); j++) Ad.setDouble(ima.set(i, j), (double) (i * 10.0 + j));
Ad.set(1, 1, -999.99);
ncfile.write("m1", new int[2], Ad);
// all done
ncfile.close();
System.out.println("**************TestStandardVar Write done");
}
