/*
* Copied from super class, but changed so that a custom ReconcileWorkingCopyOperation can be run
*/
@Override
public org.eclipse.jdt.core.dom.CompilationUnit reconcile(
int astLevel, int reconcileFlags, WorkingCopyOwner workingCopyOwner, IProgressMonitor monitor)
throws JavaModelException {
if (!isWorkingCopy()) return null; // Reconciling is not supported on non working copies
if (workingCopyOwner == null) workingCopyOwner = DefaultWorkingCopyOwner.PRIMARY;
PerformanceStats stats = null;
if (ReconcileWorkingCopyOperation.PERF) {
stats = PerformanceStats.getStats(JavaModelManager.RECONCILE_PERF, this);
stats.startRun(new String(this.getFileName()));
}
ReconcileWorkingCopyOperation op =
new GroovyReconcileWorkingCopyOperation(this, astLevel, reconcileFlags, workingCopyOwner);
JavaModelManager manager = JavaModelManager.getJavaModelManager();
try {
manager.cacheZipFiles(this); // cache zip files for performance (see
// https://bugs.eclipse.org/bugs/show_bug.cgi?id=134172)
op.runOperation(monitor);
} finally {
manager.flushZipFiles(this);
}
if (ReconcileWorkingCopyOperation.PERF) {
stats.endRun();
}
return op.ast;
}
/**
* Removes statistics for a given event and blame
*
* @param eventName The name of the event to remove
* @param blameObject The blame for the event to remove
*/
public static void removeStats(String eventName, Object blameObject) {
synchronized (statMap) {
for (Iterator<PerformanceStats> it = statMap.keySet().iterator(); it.hasNext(); ) {
PerformanceStats stats = it.next();
if (stats.getEvent().equals(eventName) && stats.getBlame().equals(blameObject)) it.remove();
}
}
}
/* (non-Javadoc)
* @see java.lang.Object#equals()
*/
@Override
public boolean equals(Object obj) {
// count and time are not considered part of equality
if (!(obj instanceof PerformanceStats)) return false;
PerformanceStats that = (PerformanceStats) obj;
if (!this.event.equals(that.event)) return false;
if (!this.getBlameString().equals(that.getBlameString())) return false;
return this.context == null ? that.context == null : this.context.equals(that.context);
}
/**
* Creates a stats object representing a performance failure
*
* @param contextName The failure context information.
* @param elapsed The elapsed time in milliseconds
* @return The failure stats
*/
private PerformanceStats createFailureStats(String contextName, long elapsed) {
PerformanceStats failedStat = new PerformanceStats(event, blame, contextName);
PerformanceStats old = statMap.get(failedStat);
if (old == null) statMap.put(failedStat, failedStat);
else failedStat = old;
failedStat.isFailure = true;
failedStat.runCount++;
failedStat.runningTime += elapsed;
return failedStat;
}
private static void connectFTPClient(FTPClient ftpClient) throws IOException, FTPException {
PerformanceStats stats =
PerformanceStats.getStats(
"com.aptana.ide.filesystem.ftp/perf/connect", //$NON-NLS-1$
FTPConnectionFileManager.class.getName());
stats.startRun(ftpClient.getRemoteHost());
try {
ftpClient.connect();
} finally {
stats.endRun();
}
}
private PerformanceStats startMeter(Object context, IRubyCompletionProposalComputer computer) {
final PerformanceStats stats;
if (MEASURE_PERFORMANCE) {
stats = PerformanceStats.getStats(PERFORMANCE_EVENT, computer);
stats.startRun(context.toString());
} else {
stats = null;
}
if (fIsReportingDelay) {
fStart = System.currentTimeMillis();
}
return stats;
}
static {
events[CREATE_PART] = PlatformUI.PLUGIN_ID + "/perf/part.create"; // $NON-NLS-1$
events[CREATE_PART_INPUT] = PlatformUI.PLUGIN_ID + "/perf/part.input"; // $NON-NLS-1$
events[CREATE_PART_CONTROL] = PlatformUI.PLUGIN_ID + "/perf/part.control"; // $NON-NLS-1$
events[INIT_PART] = PlatformUI.PLUGIN_ID + "/perf/part.init"; // $NON-NLS-1$
events[CREATE_PERSPECTIVE] = PlatformUI.PLUGIN_ID + "/perf/perspective.create"; // $NON-NLS-1$
events[SWITCH_PERSPECTIVE] = PlatformUI.PLUGIN_ID + "/perf/perspective.switch"; // $NON-NLS-1$
events[RESTORE_WORKBENCH] = PlatformUI.PLUGIN_ID + "/perf/workbench.restore"; // $NON-NLS-1$
events[START_WORKBENCH] = PlatformUI.PLUGIN_ID + "/perf/workbench.start"; // $NON-NLS-1$
events[ACTIVATE_PART] = PlatformUI.PLUGIN_ID + "/perf/part.activate"; // $NON-NLS-1$
events[BRING_PART_TO_TOP] = PlatformUI.PLUGIN_ID + "/perf/part.activate"; // $NON-NLS-1$
events[NOTIFY_PART_LISTENERS] = PlatformUI.PLUGIN_ID + "/perf/part.listeners"; // $NON-NLS-1$
events[NOTIFY_PAGE_LISTENERS] = PlatformUI.PLUGIN_ID + "/perf/page.listeners"; // $NON-NLS-1$
events[NOTIFY_PERSPECTIVE_LISTENERS] =
PlatformUI.PLUGIN_ID + "/perf/perspective.listeners"; // $NON-NLS-1$
events[UI_JOB] = PlatformUI.PLUGIN_ID + "/perf/uijob"; // $NON-NLS-1$
events[CONTENT_TYPE_LOOKUP] = PlatformUI.PLUGIN_ID + "/perf/contentTypes"; // $NON-NLS-1$
for (int i = 0; i <= LAST_VALUE; i++) {
// don't log any performance events if the general performance stats is disabled
if (events[i] != null && PerformanceStats.ENABLED) {
debug[i] = PerformanceStats.isEnabled(events[i]);
}
}
}
private void stopMeter(final PerformanceStats stats, String operation) {
if (MEASURE_PERFORMANCE) {
stats.endRun();
if (stats.isFailure()) {
IStatus status = createPerformanceStatus(operation);
fRegistry.informUser(this, status);
return;
}
}
if (fIsReportingDelay) {
long current = System.currentTimeMillis();
if (current - fStart > MAX_DELAY) {
IStatus status = createPerformanceStatus(operation);
fRegistry.informUser(this, status);
}
}
}
/**
* Indicates the end of a performance operation
*
* @param event The event id
* @param blame An object that is responsible for the event that occurred, or that uniquely
* describes the event that occurred
* @param label The event label
*/
public static void end(int event, Object blame, String label) {
if (debug[event]) {
Long startTime = (Long) operations.remove(event + label);
if (startTime == null) {
return;
}
final long elapsed = System.currentTimeMillis() - startTime.longValue();
// System.out.println("Time - " + //$NON-NLS-1$
// elapsed + events[event] + label);
PerformanceStats.getStats(events[event], blame).addRun(elapsed, label);
}
}
/**
* The description of an extension to the <code>org.rubypeople.rdt.ui.rubyCompletionProposalComputer
* </code> extension point. Instances are immutable. Instances can be obtained from a {@link
* CompletionProposalComputerRegistry}.
*
* @see CompletionProposalComputerRegistry
* @since 1.0.0
*/
final class CompletionProposalComputerDescriptor {
/** The default category id. */
private static final String DEFAULT_CATEGORY_ID =
"org.rubypeople.rdt.ui.defaultProposalCategory"; //$NON-NLS-1$
/** The extension schema name of the category id attribute. */
private static final String CATEGORY_ID = "categoryId"; // $NON-NLS-1$
/** The extension schema name of the partition type attribute. */
private static final String TYPE = "type"; // $NON-NLS-1$
/** The extension schema name of the class attribute. */
private static final String CLASS = "class"; // $NON-NLS-1$
/** The extension schema name of the activate attribute. */
private static final String ACTIVATE = "activate"; // $NON-NLS-1$
/** The extension schema name of the partition child elements. */
private static final String PARTITION = "partition"; // $NON-NLS-1$
/** Set of Ruby partition types. */
private static final Set<String> PARTITION_SET;
/** The name of the performance event used to trace extensions. */
private static final String PERFORMANCE_EVENT =
RubyPlugin.getPluginId() + "/perf/content_assist/extensions"; // $NON-NLS-1$
/**
* If <code>true</code>, execution time of extensions is measured and the data forwarded to core's
* {@link PerformanceStats} service.
*/
private static final boolean MEASURE_PERFORMANCE = PerformanceStats.isEnabled(PERFORMANCE_EVENT);
/**
* Independently of the {@link PerformanceStats} service, any operation that takes longer than
* {@value} milliseconds will be flagged as an violation. This timeout does not apply to the first
* invocation, as it may take longer due to plug-in initialization etc. See also {@link
* #fIsReportingDelay}.
*/
private static final long MAX_DELAY = 5000;
/* log constants */
private static final String COMPUTE_COMPLETION_PROPOSALS =
"computeCompletionProposals()"; //$NON-NLS-1$
private static final String COMPUTE_CONTEXT_INFORMATION =
"computeContextInformation()"; //$NON-NLS-1$
private static final String SESSION_STARTED = "sessionStarted()"; // $NON-NLS-1$
private static final String SESSION_ENDED = "sessionEnded()"; // $NON-NLS-1$
static {
Set<String> partitions = new HashSet<String>();
partitions.add(IDocument.DEFAULT_CONTENT_TYPE);
partitions.add(IRubyPartitions.RUBY_MULTI_LINE_COMMENT);
partitions.add(IRubyPartitions.RUBY_SINGLE_LINE_COMMENT);
partitions.add(IRubyPartitions.RUBY_REGULAR_EXPRESSION);
partitions.add(IRubyPartitions.RUBY_STRING);
partitions.add(IRubyPartitions.RUBY_COMMAND);
PARTITION_SET = Collections.unmodifiableSet(partitions);
}
/** The identifier of the extension. */
private final String fId;
/** The name of the extension. */
private final String fName;
/** The class name of the provided <code>IRubyCompletionProposalComputer</code>. */
private final String fClass;
/** The activate attribute value. */
private final boolean fActivate;
/** The partition of the extension (element type: {@link String}). */
private final Set<String> fPartitions;
/** The configuration element of this extension. */
private final IConfigurationElement fElement;
/** The registry we are registered with. */
private final CompletionProposalComputerRegistry fRegistry;
/** The computer, if instantiated, <code>null</code> otherwise. */
private IRubyCompletionProposalComputer fComputer;
/** The ui category. */
private final CompletionProposalCategory fCategory;
/** The first error message in the most recent operation, or <code>null</code>. */
private String fLastError;
/**
* Tells whether to inform the user when <code>MAX_DELAY</code> has been exceeded. We start timing
* execution after the first session because the first may take longer due to plug-in activation
* and initialization.
*/
private boolean fIsReportingDelay = false;
/** The start of the last operation. */
private long fStart;
/**
* Creates a new descriptor.
*
* @param element the configuration element to read
* @param registry the computer registry creating this descriptor
*/
CompletionProposalComputerDescriptor(
IConfigurationElement element,
CompletionProposalComputerRegistry registry,
List<CompletionProposalCategory> categories)
throws InvalidRegistryObjectException {
Assert.isLegal(registry != null);
Assert.isLegal(element != null);
fRegistry = registry;
fElement = element;
IExtension extension = element.getDeclaringExtension();
fId = extension.getUniqueIdentifier();
checkNotNull(fId, "id"); // $NON-NLS-1$
String name = extension.getLabel();
if (name.length() == 0) fName = fId;
else fName = name;
Set<String> partitions = new HashSet<String>();
IConfigurationElement[] children = element.getChildren(PARTITION);
if (children.length == 0) {
fPartitions = PARTITION_SET; // add to all partition types if no partition is configured
} else {
for (int i = 0; i < children.length; i++) {
String type = children[i].getAttribute(TYPE);
checkNotNull(type, TYPE);
partitions.add(type);
}
fPartitions = Collections.unmodifiableSet(partitions);
}
String activateAttribute = element.getAttribute(ACTIVATE);
fActivate = Boolean.valueOf(activateAttribute).booleanValue();
fClass = element.getAttribute(CLASS);
checkNotNull(fClass, CLASS);
String categoryId = element.getAttribute(CATEGORY_ID);
if (categoryId == null) categoryId = DEFAULT_CATEGORY_ID;
CompletionProposalCategory category = null;
for (CompletionProposalCategory cat : categories) {
if (cat.getId().equals(categoryId)) {
category = cat;
break;
}
}
if (category == null) {
// create a category if it does not exist
fCategory = new CompletionProposalCategory(categoryId, fName, registry);
categories.add(fCategory);
} else {
fCategory = category;
}
}
/**
* Checks an element that must be defined according to the extension point schema. Throws an
* <code>InvalidRegistryObjectException</code> if <code>obj</code> is <code>null</code>.
*/
private void checkNotNull(Object obj, String attribute) throws InvalidRegistryObjectException {
if (obj == null) {
Object[] args = {getId(), fElement.getContributor().getName(), attribute};
String message =
Messages.format(
RubyTextMessages.CompletionProposalComputerDescriptor_illegal_attribute_message,
args);
IStatus status =
new Status(IStatus.WARNING, RubyPlugin.getPluginId(), IStatus.OK, message, null);
RubyPlugin.log(status);
throw new InvalidRegistryObjectException();
}
}
/**
* Returns the identifier of the described extension.
*
* @return Returns the id
*/
public String getId() {
return fId;
}
/**
* Returns the name of the described extension.
*
* @return Returns the name
*/
public String getName() {
return fName;
}
/**
* Returns the partition types of the described extension.
*
* @return the set of partition types (element type: {@link String})
*/
public Set<String> getPartitions() {
return fPartitions;
}
/**
* Returns a cached instance of the computer as described in the extension's xml. The computer is
* {@link #createComputer() created} the first time that this method is called and then cached.
*
* @return a new instance of the completion proposal computer as described by this descriptor
* @throws CoreException if the creation fails
* @throws InvalidRegistryObjectException if the extension is not valid any longer (e.g. due to
* plug-in unloading)
*/
private synchronized IRubyCompletionProposalComputer getComputer()
throws CoreException, InvalidRegistryObjectException {
if (fComputer == null && (fActivate || isPluginLoaded())) fComputer = createComputer();
return fComputer;
}
private boolean isPluginLoaded() {
Bundle bundle = getBundle();
return bundle != null && bundle.getState() == Bundle.ACTIVE;
}
private Bundle getBundle() {
String namespace = fElement.getDeclaringExtension().getContributor().getName();
Bundle bundle = Platform.getBundle(namespace);
return bundle;
}
/**
* Returns a new instance of the computer as described in the extension's xml. Note that the
* safest way to access the computer is by using the {@linkplain
* #computeCompletionProposals(ContentAssistInvocationContext, IProgressMonitor)
* computeCompletionProposals} and {@linkplain
* #computeContextInformation(ContentAssistInvocationContext, IProgressMonitor)
* computeContextInformation} methods. These delegate the functionality to the contributed
* computer, but handle instance creation and any exceptions thrown.
*
* @return a new instance of the completion proposal computer as described by this descriptor
* @throws CoreException if the creation fails
* @throws InvalidRegistryObjectException if the extension is not valid any longer (e.g. due to
* plug-in unloading)
*/
public IRubyCompletionProposalComputer createComputer()
throws CoreException, InvalidRegistryObjectException {
return (IRubyCompletionProposalComputer) fElement.createExecutableExtension(CLASS);
}
/**
* Safely computes completion proposals through the described extension. If the extension is
* disabled, throws an exception or otherwise does not adhere to the contract described in {@link
* IRubyCompletionProposalComputer}, an empty list is returned.
*
* @param context the invocation context passed on to the extension
* @param monitor the progress monitor passed on to the extension
* @return the list of computed completion proposals (element type: {@link
* org.eclipse.jface.text.contentassist.ICompletionProposal})
*/
public List computeCompletionProposals(
ContentAssistInvocationContext context, IProgressMonitor monitor) {
if (!isEnabled()) return Collections.EMPTY_LIST;
IStatus status;
try {
IRubyCompletionProposalComputer computer = getComputer();
if (computer == null) // not active yet
return Collections.EMPTY_LIST;
try {
PerformanceStats stats = startMeter(context, computer);
List proposals = computer.computeCompletionProposals(context, monitor);
stopMeter(stats, COMPUTE_COMPLETION_PROPOSALS);
if (proposals != null) {
fLastError = computer.getErrorMessage();
return proposals;
}
} finally {
fIsReportingDelay = true;
}
status = createAPIViolationStatus(COMPUTE_COMPLETION_PROPOSALS);
} catch (InvalidRegistryObjectException x) {
status = createExceptionStatus(x);
} catch (CoreException x) {
status = createExceptionStatus(x);
} catch (RuntimeException x) {
status = createExceptionStatus(x);
} finally {
monitor.done();
}
fRegistry.informUser(this, status);
return Collections.EMPTY_LIST;
}
/**
* Safely computes context information objects through the described extension. If the extension
* is disabled, throws an exception or otherwise does not adhere to the contract described in
* {@link IRubyCompletionProposalComputer}, an empty list is returned.
*
* @param context the invocation context passed on to the extension
* @param monitor the progress monitor passed on to the extension
* @return the list of computed context information objects (element type: {@link
* org.eclipse.jface.text.contentassist.IContextInformation})
*/
public List computeContextInformation(
ContentAssistInvocationContext context, IProgressMonitor monitor) {
if (!isEnabled()) return Collections.EMPTY_LIST;
IStatus status;
try {
IRubyCompletionProposalComputer computer = getComputer();
if (computer == null) // not active yet
return Collections.EMPTY_LIST;
PerformanceStats stats = startMeter(context, computer);
List proposals = computer.computeContextInformation(context, monitor);
stopMeter(stats, COMPUTE_CONTEXT_INFORMATION);
if (proposals != null) {
fLastError = computer.getErrorMessage();
return proposals;
}
status = createAPIViolationStatus(COMPUTE_CONTEXT_INFORMATION);
} catch (InvalidRegistryObjectException x) {
status = createExceptionStatus(x);
} catch (CoreException x) {
status = createExceptionStatus(x);
} catch (RuntimeException x) {
status = createExceptionStatus(x);
} finally {
monitor.done();
}
fRegistry.informUser(this, status);
return Collections.EMPTY_LIST;
}
/**
* Notifies the described extension of a proposal computation session start.
*
* <p><em> Note: This method is called every time code assist is invoked and is
* <strong>not</strong> filtered by partition type. </em>
*/
public void sessionStarted() {
if (!isEnabled()) return;
IStatus status;
try {
IRubyCompletionProposalComputer computer = getComputer();
if (computer == null) // not active yet
return;
PerformanceStats stats = startMeter(SESSION_STARTED, computer);
computer.sessionStarted();
stopMeter(stats, SESSION_ENDED);
return;
} catch (InvalidRegistryObjectException x) {
status = createExceptionStatus(x);
} catch (CoreException x) {
status = createExceptionStatus(x);
} catch (RuntimeException x) {
status = createExceptionStatus(x);
}
fRegistry.informUser(this, status);
}
/**
* Notifies the described extension of a proposal computation session end.
*
* <p><em> Note: This method is called every time code assist is invoked and is
* <strong>not</strong> filtered by partition type. </em>
*/
public void sessionEnded() {
if (!isEnabled()) return;
IStatus status;
try {
IRubyCompletionProposalComputer computer = getComputer();
if (computer == null) // not active yet
return;
PerformanceStats stats = startMeter(SESSION_ENDED, computer);
computer.sessionEnded();
stopMeter(stats, SESSION_ENDED);
return;
} catch (InvalidRegistryObjectException x) {
status = createExceptionStatus(x);
} catch (CoreException x) {
status = createExceptionStatus(x);
} catch (RuntimeException x) {
status = createExceptionStatus(x);
}
fRegistry.informUser(this, status);
}
private PerformanceStats startMeter(Object context, IRubyCompletionProposalComputer computer) {
final PerformanceStats stats;
if (MEASURE_PERFORMANCE) {
stats = PerformanceStats.getStats(PERFORMANCE_EVENT, computer);
stats.startRun(context.toString());
} else {
stats = null;
}
if (fIsReportingDelay) {
fStart = System.currentTimeMillis();
}
return stats;
}
private void stopMeter(final PerformanceStats stats, String operation) {
if (MEASURE_PERFORMANCE) {
stats.endRun();
if (stats.isFailure()) {
IStatus status = createPerformanceStatus(operation);
fRegistry.informUser(this, status);
return;
}
}
if (fIsReportingDelay) {
long current = System.currentTimeMillis();
if (current - fStart > MAX_DELAY) {
IStatus status = createPerformanceStatus(operation);
fRegistry.informUser(this, status);
}
}
}
private IStatus createExceptionStatus(InvalidRegistryObjectException x) {
// extension has become invalid - log & disable
String blame = createBlameMessage();
String reason = RubyTextMessages.CompletionProposalComputerDescriptor_reason_invalid;
return new Status(
IStatus.INFO, RubyPlugin.getPluginId(), IStatus.OK, blame + " " + reason, x); // $NON-NLS-1$
}
private IStatus createExceptionStatus(CoreException x) {
// unable to instantiate the extension - log & disable
String blame = createBlameMessage();
String reason = RubyTextMessages.CompletionProposalComputerDescriptor_reason_instantiation;
return new Status(
IStatus.ERROR,
RubyPlugin.getPluginId(),
IStatus.OK,
blame + " " + reason,
x); //$NON-NLS-1$
}
private IStatus createExceptionStatus(RuntimeException x) {
// misbehaving extension - log & disable
String blame = createBlameMessage();
String reason = RubyTextMessages.CompletionProposalComputerDescriptor_reason_runtime_ex;
return new Status(
IStatus.WARNING,
RubyPlugin.getPluginId(),
IStatus.OK,
blame + " " + reason,
x); //$NON-NLS-1$
}
private IStatus createAPIViolationStatus(String operation) {
String blame = createBlameMessage();
Object[] args = {operation};
String reason =
Messages.format(RubyTextMessages.CompletionProposalComputerDescriptor_reason_API, args);
return new Status(
IStatus.WARNING,
RubyPlugin.getPluginId(),
IStatus.OK,
blame + " " + reason,
null); //$NON-NLS-1$
}
private IStatus createPerformanceStatus(String operation) {
String blame = createBlameMessage();
Object[] args = {operation};
String reason =
Messages.format(
RubyTextMessages.CompletionProposalComputerDescriptor_reason_performance, args);
return new Status(
IStatus.WARNING,
RubyPlugin.getPluginId(),
IStatus.OK,
blame + " " + reason,
null); //$NON-NLS-1$
}
private String createBlameMessage() {
Object[] args = {getName(), fElement.getDeclaringExtension().getContributor().getName()};
String disable =
Messages.format(RubyTextMessages.CompletionProposalComputerDescriptor_blame_message, args);
return disable;
}
/**
* Returns the enablement state of the described extension.
*
* @return the enablement state of the described extension
*/
private boolean isEnabled() {
return fCategory.isEnabled();
}
CompletionProposalCategory getCategory() {
return fCategory;
}
/**
* Returns the error message from the described extension.
*
* @return the error message from the described extension
*/
public String getErrorMessage() {
return fLastError;
}
/**
* Returns the contributor of the described extension.
*
* @return the contributor of the described extension
*/
IContributor getContributor() {
try {
return fElement.getContributor();
} catch (InvalidRegistryObjectException e) {
return null;
}
}
}