/** Test toStrings */ @Test public void testToString() { final String expectedLinear = "TmfTimestampTransformLinearFast [ slope = 314.0, offset = 0.0 ]"; final String expectedLinearBigDec = "TmfTimestampTransformLinearFast [ slope = 314, offset = 0 ]"; final String expectedOffset = "TmfConstantTransform [ offset = 314 ]"; final String expectedIdentity = "TmfTimestampTransform [ IDENTITY ]"; final String expectedOffset100 = "TmfConstantTransform [ offset = 100 ]"; assertEquals(expectedLinear, TimestampTransformFactory.createLinear(314, 0).toString()); assertEquals( expectedLinearBigDec, TimestampTransformFactory.createLinear( NonNullUtils.checkNotNull(BigDecimal.valueOf(314)), NonNullUtils.checkNotNull(BigDecimal.ZERO)) .toString()); assertEquals(expectedOffset, TimestampTransformFactory.createLinear(1, 314).toString()); assertEquals(expectedOffset, TimestampTransformFactory.createWithOffset(314).toString()); assertEquals( expectedOffset, TimestampTransformFactory.createWithOffset(14) .composeWith(TimestampTransformFactory.createWithOffset(300)) .toString()); assertEquals( expectedIdentity, TimestampTransformFactory.createWithOffset(314) .composeWith(TimestampTransformFactory.createWithOffset(-314)) .toString()); assertEquals(expectedIdentity, TimestampTransformFactory.createWithOffset(0).toString()); assertEquals(expectedIdentity, identity1.toString()); assertEquals(expectedOffset100, offset1.toString()); assertEquals(expectedOffset100, offset2.toString()); assertEquals(expectedOffset100, offset3.toString()); assertEquals(expectedOffset100, offset4.toString()); }
/** * This class represents a virtual CPU, which is a CPU running on a guest. It associates the guest * CPU ID to a virtual machine of the model. * * @author Geneviève Bastien */ public class VirtualCPU { private static final Table<VirtualMachine, Long, VirtualCPU> VIRTUAL_CPU_TABLE = NonNullUtils.checkNotNull(HashBasedTable.<VirtualMachine, Long, VirtualCPU>create()); private final VirtualMachine fVm; private final Long fCpuId; /** * Return the virtual CPU for to the virtual machine and requested CPU ID * * @param vm The virtual machine * @param cpu the CPU number * @return the virtual CPU */ public static synchronized VirtualCPU getVirtualCPU(VirtualMachine vm, Long cpu) { VirtualCPU ht = VIRTUAL_CPU_TABLE.get(vm, cpu); if (ht == null) { ht = new VirtualCPU(vm, cpu); VIRTUAL_CPU_TABLE.put(vm, cpu, ht); } return ht; } private VirtualCPU(VirtualMachine vm, Long cpu) { fVm = vm; fCpuId = cpu; } /** * Get the CPU ID of this virtual CPU * * @return The zero-based CPU ID */ public Long getCpuId() { return fCpuId; } /** * Get the virtual machine object this virtual CPU belongs to * * @return The guest Virtual Machine */ public VirtualMachine getVm() { return fVm; } @Override public String toString() { return "VirtualCPU: [" + fVm + ',' + fCpuId + ']'; // $NON-NLS-1$ } }
/** * Timestamp transform tests * * @author Matthew Khouzam */ @NonNullByDefault public class TsTransformFactoryTest { private final ITmfTimestamp t0 = TmfTimestamp.fromSeconds(0); private final ITmfTimestamp t100 = TmfTimestamp.fromSeconds(100); private final ITmfTimestamp t1e2 = TmfTimestamp.create(1, 2); private final ITmfTimestamp t1e3 = TmfTimestamp.create(1, 3); private final ITmfTimestamp tn0 = TmfTimestamp.fromNanos(0); private final ITmfTimestamp tn100 = TmfTimestamp.fromNanos(100); private final ITmfTimestamp tn1 = TmfTimestamp.fromNanos(1); private final ITmfTimestampTransform identity1 = TimestampTransformFactory.createLinear(1.0, TmfTimestamp.fromNanos(0)); private final ITmfTimestampTransform offset1 = TimestampTransformFactory.createWithOffset(100); private final ITmfTimestampTransform offset2 = TimestampTransformFactory.createLinear( NonNullUtils.checkNotNull(BigDecimal.ONE), NonNullUtils.checkNotNull(new BigDecimal(100))); private final ITmfTimestampTransform offset3 = TimestampTransformFactory.createLinear(1.0, 100); private final ITmfTimestampTransform offset4 = TimestampTransformFactory.createLinear(1.0, TmfTimestamp.fromNanos(100)); /** Test with identity */ @Test public void transformIdentity() { final ITmfTimestampTransform identity = TimestampTransformFactory.createWithOffset(0); final ITmfTimestampTransform innefficientIdentity = new TmfConstantTransform(); final ITmfTimestampTransform compositeInnefficientIdentity = identity.composeWith(innefficientIdentity); final ITmfTimestampTransform compositeInnefficientIdentity2 = innefficientIdentity.composeWith(innefficientIdentity); final ITmfTimestampTransform compositeInnefficientIdentity3 = innefficientIdentity.composeWith(identity); assertEquals(t0, identity.transform(t0)); assertEquals(tn0, identity.transform(tn0)); assertEquals(t100, identity.transform(t100)); assertEquals(t1e2, identity.transform(t100)); assertEquals(t1e2, identity.transform(t1e2)); assertEquals(t1e3, identity.transform(t1e3)); assertEquals(tn100, identity.transform(tn100)); assertEquals(t0, innefficientIdentity.transform(t0)); // bad practice assertEquals(t0, compositeInnefficientIdentity.transform(t0)); // bad // practice assertEquals(t0, compositeInnefficientIdentity2.transform(t0)); // bad // practice assertEquals(t0, compositeInnefficientIdentity3.transform(t0)); // bad // practice } /** Test with an offset of 100 */ @Test public void transformOffset() { final ITmfTimestampTransform offset = offset1; final ITmfTimestampTransform compositeTransform = offset.composeWith( TimestampTransformFactory.createWithOffset(TmfTimestamp.fromNanos(-100))); assertEquals(tn100, offset.transform(t0)); assertEquals(tn100, offset.transform(tn0)); assertEquals(tn0, compositeTransform.transform(tn0)); assertEquals(t0, compositeTransform.transform(t0)); assertEquals(200, offset1.transform(100)); assertEquals(200, offset2.transform(100)); assertEquals(200, offset3.transform(100)); assertEquals(200, offset4.transform(100)); } /** Test with a slope */ @Test public void transformSlope() { final ITmfTimestampTransform slope = TimestampTransformFactory.createLinear(10, 0); final ITmfTimestampTransform slope1 = TimestampTransformFactory.createLinear(10.0, TmfTimestamp.fromNanos(0)); assertEquals(t1e3, slope.transform(t1e2)); assertEquals(tn100, slope.transform(TmfTimestamp.fromNanos(10))); assertEquals(tn100, slope.transform(slope.transform(tn1))); assertEquals(tn100, slope.composeWith(slope).transform(tn1)); assertEquals(tn100, slope1.transform(TmfTimestamp.fromNanos(10))); } /** Test toStrings */ @Test public void testToString() { final String expectedLinear = "TmfTimestampTransformLinearFast [ slope = 314.0, offset = 0.0 ]"; final String expectedLinearBigDec = "TmfTimestampTransformLinearFast [ slope = 314, offset = 0 ]"; final String expectedOffset = "TmfConstantTransform [ offset = 314 ]"; final String expectedIdentity = "TmfTimestampTransform [ IDENTITY ]"; final String expectedOffset100 = "TmfConstantTransform [ offset = 100 ]"; assertEquals(expectedLinear, TimestampTransformFactory.createLinear(314, 0).toString()); assertEquals( expectedLinearBigDec, TimestampTransformFactory.createLinear( NonNullUtils.checkNotNull(BigDecimal.valueOf(314)), NonNullUtils.checkNotNull(BigDecimal.ZERO)) .toString()); assertEquals(expectedOffset, TimestampTransformFactory.createLinear(1, 314).toString()); assertEquals(expectedOffset, TimestampTransformFactory.createWithOffset(314).toString()); assertEquals( expectedOffset, TimestampTransformFactory.createWithOffset(14) .composeWith(TimestampTransformFactory.createWithOffset(300)) .toString()); assertEquals( expectedIdentity, TimestampTransformFactory.createWithOffset(314) .composeWith(TimestampTransformFactory.createWithOffset(-314)) .toString()); assertEquals(expectedIdentity, TimestampTransformFactory.createWithOffset(0).toString()); assertEquals(expectedIdentity, identity1.toString()); assertEquals(expectedOffset100, offset1.toString()); assertEquals(expectedOffset100, offset2.toString()); assertEquals(expectedOffset100, offset3.toString()); assertEquals(expectedOffset100, offset4.toString()); } }
@Override protected void buildEntryList( @NonNull ITmfTrace trace, @NonNull ITmfTrace parentTrace, @NonNull IProgressMonitor monitor) { // TODO Auto-generated method stub // TODO Auto-generated method stub final ITmfStateSystem ssq = TmfStateSystemAnalysisModule.getStateSystem(trace, OPS_NEUTRON_MODULE.ID); if (ssq == null) { return; } Comparator<ITimeGraphEntry> comparator = new Comparator<ITimeGraphEntry>() { @Override public int compare(ITimeGraphEntry o1, ITimeGraphEntry o2) { return ((OPS_NEUTRON_ENTRY) o1).compareTo(o2); } }; // Map<Integer, ServiceEntry> entryMap = new HashMap<>(); TimeGraphEntry traceEntry = null; TimeGraphEntry traceEntry1 = null; Map<String, TimeGraphEntry> mapservice = new HashMap(); long startTime = ssq.getStartTime(); long start = startTime; setStartTime(Math.min(getStartTime(), startTime)); boolean complete = false; while (!complete) { if (monitor.isCanceled()) { return; } complete = ssq.waitUntilBuilt(BUILD_UPDATE_TIMEOUT); if (ssq.isCancelled()) { return; } long end = ssq.getCurrentEndTime(); if (start == end && !complete) { // when complete execute one last time regardless of end time continue; } long endTime = end + 1; setEndTime(Math.max(getEndTime(), endTime)); if (traceEntry == null) { traceEntry = new OPS_NEUTRON_ENTRY(trace, trace.getName(), startTime, endTime, "SERVICEs"); traceEntry.sortChildren(comparator); List<TimeGraphEntry> entryList = Collections.singletonList(traceEntry); addToEntryList(parentTrace, ssq, entryList); } else { traceEntry.updateEndTime(endTime); } // --------- if (traceEntry1 == null) { traceEntry1 = new OPS_NEUTRON_ENTRY(trace, trace.getName(), startTime, endTime, "SERVICEs"); } else { traceEntry1.updateEndTime(endTime); } List<Integer> servicesQuarks = ssq.getQuarks("SERVICEs", "*"); // $NON-NLS-1$ for (Integer serviceQuark : servicesQuarks) { String serv = ssq.getAttributeName(serviceQuark).toString(); if (serv.contains(".")) { String service = serv.split("\\.")[0]; // find service name String subservice = serv.replace(service + ".", ""); // get sub service name TimeGraphEntry subServiceEntry = new OPS_NEUTRON_ENTRY( serviceQuark, trace, startTime, endTime, Type.SERVICE, subservice); if (mapservice.containsKey(service)) { NonNullUtils.checkNotNull(mapservice.get(service)).addChild(subServiceEntry); } else { TimeGraphEntry ServiceEntry = new OPS_NEUTRON_ENTRY( serviceQuark, trace, startTime, endTime, Type.SERVICE, service); mapservice.put(service, ServiceEntry); ServiceEntry.addChild(subServiceEntry); traceEntry.addChild(ServiceEntry); } } } if (parentTrace.equals(getTrace())) { refresh(); } final List<? extends ITimeGraphEntry> traceEntryChildren = traceEntry1.getChildren(); final long resolution = Math.max(1, (endTime - ssq.getStartTime()) / getDisplayWidth()); final long qStart = start; final long qEnd = end; queryFullStates( ssq, qStart, qEnd, resolution, monitor, new IQueryHandler() { @Override public void handle( List<List<ITmfStateInterval>> fullStates, List<ITmfStateInterval> prevFullState) { for (ITimeGraphEntry child : traceEntryChildren) { if (monitor.isCanceled()) { return; } if (child instanceof TimeGraphEntry) { TimeGraphEntry entry = (TimeGraphEntry) child; List<ITimeEvent> eventList = getEventList(entry, ssq, fullStates, prevFullState, monitor); if (eventList != null) { for (ITimeEvent event : eventList) { entry.addEvent(event); } } } } } }); start = end; } }