/* * (non-Javadoc) * * @see * org.eclipse.linuxtools.tmf.trace.ITmfTrace#parseEvent(org.eclipse.linuxtools * .tmf.trace.TmfContext) */ @Override public TmfEvent parseEvent(TmfContext context) { // Validate the context if (!(context instanceof TmfExperimentContext)) { return null; // Throw an exception? } if (!context.equals(fExperimentContext)) { // Tracer.trace("Ctx: Restoring context"); seekLocation(context.getLocation()); } TmfExperimentContext expContext = (TmfExperimentContext) context; // If an event was consumed previously, get the next one from that trace int lastTrace = expContext.getLastTrace(); if (lastTrace != TmfExperimentContext.NO_TRACE) { TmfContext traceContext = expContext.getContexts()[lastTrace]; expContext.getEvents()[lastTrace] = expContext.getTraces()[lastTrace].getNextEvent(traceContext); expContext.setLastTrace(TmfExperimentContext.NO_TRACE); fExperimentContext = (TmfExperimentContext) context; } // Scan the candidate events and identify the "next" trace to read from int trace = TmfExperimentContext.NO_TRACE; TmfTimestamp timestamp = TmfTimestamp.BigCrunch; for (int i = 0; i < expContext.getTraces().length; i++) { TmfEvent event = expContext.getEvents()[i]; if (event != null && event.getTimestamp() != null) { TmfTimestamp otherTS = event.getTimestamp(); if (otherTS.compareTo(timestamp, true) < 0) { trace = i; timestamp = otherTS; } } } TmfEvent event = null; if (trace != TmfExperimentContext.NO_TRACE) { event = expContext.getEvents()[trace]; } return event; }
/* * (non-Javadoc) * * @see * org.eclipse.linuxtools.tmf.trace.ITmfTrace#seekEvent(org.eclipse.linuxtools * .tmf.event.TmfTimestamp) */ @Override public synchronized TmfExperimentContext seekEvent(TmfTimestamp timestamp) { // Tracer.trace("Ctx: seekEvent(TS) - start"); if (timestamp == null) { timestamp = TmfTimestamp.BigBang; } // First, find the right checkpoint int index = Collections.binarySearch(fCheckpoints, new TmfCheckpoint(timestamp, null)); // In the very likely case that the checkpoint was not found, bsearch // returns its negated would-be location (not an offset...). From that // index, we can then position the stream and get the event. if (index < 0) { index = Math.max(0, -(index + 2)); } // Position the experiment at the checkpoint ITmfLocation<?> location; synchronized (fCheckpoints) { if (fCheckpoints.size() > 0) { if (index >= fCheckpoints.size()) { index = fCheckpoints.size() - 1; } location = fCheckpoints.elementAt(index).getLocation(); } else { location = null; } } TmfExperimentContext context = seekLocation(location); context.setRank((long) index * fIndexPageSize); // And locate the event TmfEvent event = parseEvent(context); while (event != null && event.getTimestamp().compareTo(timestamp, false) < 0) { getNextEvent(context); event = parseEvent(context); } if (event == null) { context.setLocation(null); context.setRank(ITmfContext.UNKNOWN_RANK); } return context; }
@Override public synchronized TmfEvent getNextEvent(TmfContext context) { // Validate the context if (!(context instanceof TmfExperimentContext)) { return null; // Throw an exception? } if (!context.equals(fExperimentContext)) { // Tracer.trace("Ctx: Restoring context"); fExperimentContext = seekLocation(context.getLocation()); } TmfExperimentContext expContext = (TmfExperimentContext) context; // dumpContext(expContext, true); // If an event was consumed previously, get the next one from that trace int lastTrace = expContext.getLastTrace(); if (lastTrace != TmfExperimentContext.NO_TRACE) { TmfContext traceContext = expContext.getContexts()[lastTrace]; expContext.getEvents()[lastTrace] = expContext.getTraces()[lastTrace].getNextEvent(traceContext); expContext.setLastTrace(TmfExperimentContext.NO_TRACE); } // Scan the candidate events and identify the "next" trace to read from TmfEvent eventArray[] = expContext.getEvents(); if (eventArray == null) { return null; } int trace = TmfExperimentContext.NO_TRACE; TmfTimestamp timestamp = TmfTimestamp.BigCrunch; if (eventArray.length == 1) { if (eventArray[0] != null) { timestamp = eventArray[0].getTimestamp(); trace = 0; } } else { for (int i = 0; i < eventArray.length; i++) { TmfEvent event = eventArray[i]; if (event != null && event.getTimestamp() != null) { TmfTimestamp otherTS = event.getTimestamp(); if (otherTS.compareTo(timestamp, true) < 0) { trace = i; timestamp = otherTS; } } } } // Update the experiment context and set the "next" event TmfEvent event = null; if (trace != TmfExperimentContext.NO_TRACE) { updateIndex(expContext, timestamp); TmfContext traceContext = expContext.getContexts()[trace]; TmfExperimentLocation expLocation = (TmfExperimentLocation) expContext.getLocation(); // expLocation.getLocation()[trace] = traceContext.getLocation().clone(); expLocation.getLocation().locations[trace] = traceContext.getLocation(); // updateIndex(expContext, timestamp); expLocation.getRanks()[trace] = traceContext.getRank(); expContext.setLastTrace(trace); expContext.updateRank(1); event = expContext.getEvents()[trace]; fExperimentContext = expContext; } // if (event != null) { // Tracer.trace("Exp: " + (expContext.getRank() - 1) + ": " + // event.getTimestamp().toString()); // dumpContext(expContext, false); // Tracer.trace("Ctx: Event returned= " + event.getTimestamp().toString()); // } return event; }
/** * Returns the timestamp of the event at the requested index. If none, returns null. * * @param index * @return */ public TmfTimestamp getTimestamp(int index) { TmfExperimentContext context = seekEvent(index); TmfEvent event = getNextEvent(context); return (event != null) ? event.getTimestamp() : null; }