/**
* Translates a StatValue into a PerfStatValue with the specified filter, with the specified
* operations, and the specified trim. For the latter, if start is -1, uses the beginning of the
* statistic's existence, and if end is -1, goes to the end of the statistic's existence.
*/
protected static PerfStatValue getPerfStatValue(
StatSpec statspec, TrimSpec trimspec, StatArchiveReader.StatValue sv) {
long start = trimspec.getStart();
long end = trimspec.getEnd();
sv = sv.createTrimmed(start, end);
if (Log.getLogWriter().finestEnabled()) {
Log.getLogWriter()
.finest(
"PerfStatReader: Trimmed from "
+ trimspec.getStartStr()
+ " ("
+ start
+ ") to "
+ trimspec.getEndStr()
+ " ("
+ end
+ ")");
}
int filter = statspec.getFilter();
double mean = -1;
if (filter == StatArchiveReader.StatValue.FILTER_PERSEC && statspec.getMean()) {
if (start == -1) {
start = sv.getRawAbsoluteTimeStamps()[0];
}
if (end == -1) {
long[] rats = sv.getRawAbsoluteTimeStamps();
end = rats[rats.length - 1];
}
long elapsedSec = (end - start) / 1000;
sv.setFilter(StatArchiveReader.StatValue.FILTER_NONE);
double del = sv.getSnapshotsMaximum() - sv.getSnapshotsMinimum();
mean = del / elapsedSec;
}
sv.setFilter(filter);
// @todo lises see if psv really needs to hang onto specs
PerfStatValue psv = new PerfStatValue(statspec, trimspec);
psv.setIsLargerBetter(sv.getDescriptor().isLargerBetter());
psv.setSamples(sv.getSnapshotsSize());
if (statspec.getMin()) psv.setMin(sv.getSnapshotsMinimum());
if (statspec.getMax()) psv.setMax(sv.getSnapshotsMaximum());
if (statspec.getMaxMinusMin())
psv.setMaxMinusMin(sv.getSnapshotsMaximum() - sv.getSnapshotsMinimum());
if (statspec.getMean()) {
if (filter == StatArchiveReader.StatValue.FILTER_PERSEC) {
psv.setMean(mean);
} else {
psv.setMean(sv.getSnapshotsAverage());
}
}
if (statspec.getStddev()) psv.setStddev(sv.getSnapshotsStandardDeviation());
SortedSet archives = new TreeSet();
StatArchiveReader.ResourceInst[] resources = sv.getResources();
String productVersion = null;
for (int i = 0; i < resources.length; i++) {
String archive = resources[i].getArchive().getFile().getParentFile().getName();
if (productVersion == null) {
productVersion = resources[i].getArchive().getArchiveInfo().getProductVersion();
}
if (!archives.contains(archive)) {
archives.add(archive);
}
}
psv.setArchives(archives);
psv.setProductVersion(productVersion);
return psv;
}
/**
* Fetches the values for all statistics specifications in the configuration, trimmed as specified
* by the trim specifications. Returns a map keyed by the logical name of the statistics
* specification, where the value is a (possibly empty) list of {@link PerfStatValue}s for that
* specification.
*/
protected static SortedMap processStatConfig(StatConfig statconfig) {
List tmpArchives = statconfig.getStatisticArchivesAsList();
if (tmpArchives == null || tmpArchives.size() == 0) {
return null;
}
List archives = new ArrayList();
archives.addAll(tmpArchives);
List statspecs = new ArrayList();
statspecs.addAll(statconfig.getStatSpecInstances().values());
if (Log.getLogWriter().finestEnabled()) {
Log.getLogWriter().finest("PerfStatReader: archives ==> " + archives);
Log.getLogWriter()
.finest(
"PerfStatReader: generating from ==> "
+ statconfig.getStatSpecs().keySet()
+ "==>"
+ statconfig.getStatSpecs().values());
}
Map rawValues = new HashMap();
try {
StatArchiveReader reader =
new StatArchiveReader(
(File[]) archives.toArray(new File[archives.size()]),
(StatSpec[]) statspecs.toArray(new StatSpec[statspecs.size()]),
true);
Iterator it = statspecs.iterator();
while (it.hasNext()) {
StatSpec spec = (StatSpec) it.next();
StatArchiveReader.StatValue[] values = reader.matchSpec(spec);
if (Log.getLogWriter().finestEnabled()) {
for (int i = 0; i < values.length; i++) {
StatArchiveReader.StatValue value = values[i];
long[] times = value.getRawAbsoluteTimeStamps();
// this is filter=none, untrimmed
double[] rawvals = value.getRawSnapshots();
// this is filter=whatever it is for the statspec, untrimmed
double[] vals = value.getSnapshots();
Log.getLogWriter().finest(times.length + " timestamps with " + vals.length + " values");
String s = "";
for (int j = 0; j < Math.min(times.length, vals.length); j++) {
s +=
"\ntime "
+ convertTimestamp(times[j])
+ " "
+ times[j]
+ " filtered = "
+ vals[j]
+ " raw = "
+ rawvals[j]
+ " ";
}
Log.getLogWriter().finest("Values: " + s);
}
Log.getLogWriter().finest("PerfStatReader: Read spec ==> " + spec);
for (int p = 0; p < values.length; p++) {
Log.getLogWriter().finest("PerfStatReader: Initial value[" + p + "]=" + values[p]);
}
}
rawValues.put(spec.getName(), Arrays.asList(values));
}
} catch (IOException e) {
throw new StatConfigException("Unable to read archive", e);
}
if (Log.getLogWriter().finerEnabled()) {
for (Iterator i = rawValues.keySet().iterator(); i.hasNext(); ) {
String statspecname = (String) i.next();
List statspecvalues = (List) rawValues.get(statspecname);
Log.getLogWriter()
.finer("PerfStatReader: Raw values ==> " + statspecname + "..." + statspecvalues);
}
}
// now do the reading, then filter, trim, and do operations on each result
SortedMap processedValues = new TreeMap();
for (Iterator i = rawValues.keySet().iterator(); i.hasNext(); ) {
String statspecname = (String) i.next();
List rawValueList = (List) rawValues.get(statspecname);
List processedValueList = new ArrayList();
for (Iterator j = rawValueList.iterator(); j.hasNext(); ) {
StatSpec statspec = statconfig.getStatSpec(statspecname);
TrimSpec trimspec = statconfig.getTrimSpec(statspec.getTrimSpecName());
StatArchiveReader.StatValue sv = (StatArchiveReader.StatValue) j.next();
PerfStatValue psv = getPerfStatValue(statspec, trimspec, sv);
StatArchiveReader.ResourceType type = sv.getType();
StatArchiveReader.StatDescriptor desc = type.getStat(statspec.getStatName());
if (desc == null) {
String s = "Could not find a StatDescriptor for \"" + statspec.getStatName() + "\"";
throw new InternalGemFireException(s);
}
if (PerfReporter.brief) {
StringBuffer sb = new StringBuffer();
sb.append(desc.getDescription());
sb.append(" (");
sb.append(desc.getUnits());
if (statspec.getFilter() == StatArchiveReader.StatValue.FILTER_PERSEC) {
sb.append("/sec");
}
sb.append(")");
statspec.setDescription(sb.toString());
}
processedValueList.add(psv);
if (Log.getLogWriter().finestEnabled()) {
Log.getLogWriter().finest("PerfStatReader: PSV: " + psv.toString());
}
// @todo lises need to sort these for later comparisons, but on what?
// any way to use the logical archive it came from?
}
if (Log.getLogWriter().finestEnabled()) {
Log.getLogWriter()
.finest("PerfStatReader: Put " + statspecname + " values as " + processedValueList);
}
processedValues.put(statspecname, processedValueList);
}
if (Log.getLogWriter().finerEnabled()) {
for (Iterator i = processedValues.keySet().iterator(); i.hasNext(); ) {
String statspecname = (String) i.next();
List statspecvalues = (List) processedValues.get(statspecname);
Log.getLogWriter()
.finer("PerfStatReader: Processed values ==> " + statspecname + "..." + statspecvalues);
}
}
// now evaluate the expressions
List exprs = new ArrayList();
exprs.addAll(statconfig.getExprInstances().values());
if (Log.getLogWriter().finestEnabled()) {
Log.getLogWriter().finest("PerfStatReader: exprs ==> " + exprs);
}
for (Iterator i = exprs.iterator(); i.hasNext(); ) {
Expr expr = (Expr) i.next();
String numerator = expr.getNumerator().getName();
String denominator = expr.getDenominator().getName();
List numerators = (List) processedValues.get(numerator);
List denominators = (List) processedValues.get(denominator);
if (Log.getLogWriter().finestEnabled()) {
Log.getLogWriter()
.finest(
"Dividing "
+ numerator
+ " by "
+ denominator
+ " ==> "
+ numerators
+ " OVER "
+ denominators);
}
List processedValueList = new ArrayList();
if (numerators.size() != 0 && denominators.size() != 0) {
for (int j = 0; j < numerators.size(); j++) {
PerfStatValue npsv = (PerfStatValue) numerators.get(j);
PerfStatValue dpsv = (PerfStatValue) denominators.get(j);
PerfStatValue psv = npsv.dividedBy(dpsv);
if (psv != null) {
processedValueList.add(psv);
}
}
} else if (numerators.size() == 0 || denominators.size() == 0) {
// nothing to do
} else if (numerators.size() != denominators.size()) {
String s =
"Dividing "
+ numerator
+ " by "
+ denominator
+ " found numerators ("
+ numerators.size()
+ ") and denominators ("
+ denominators.size()
+ " have different sizes ==> "
+ numerators
+ " OVER "
+ denominators;
throw new PerfComparisonException(s);
}
processedValues.put(expr.getName(), processedValueList);
}
return processedValues;
}
/** Returns this PerfStatValue divided by the argument, field by field. */
public PerfStatValue dividedBy(PerfStatValue dpsv) {
PerfStatValue psv = new PerfStatValue(this.statspec, this.trimspec);
if (this.isFlatline() && dpsv.isFlatline()) {
return null;
}
psv.setArchives(this.archives);
psv.setProductVersion(this.productVersion);
psv.setIsLargerBetter(this.isLargerBetter); // go with the numerator here
psv.setSamples(this.samples.intValue());
if (this.min != null && dpsv.min != null) {
psv.setMin(divide(this.getMin(), dpsv.getMin()));
}
if (this.max != null && dpsv.max != null) {
psv.setMax(divide(this.getMax(), dpsv.getMax()));
}
if (this.maxminusmin != null && dpsv.maxminusmin != null) {
psv.setMaxMinusMin(divide(this.getMaxMinusMin(), dpsv.getMaxMinusMin()));
}
if (this.mean != null && dpsv.mean != null) {
psv.setMean(divide(this.getMean(), dpsv.getMean()));
}
if (this.stddev != null && dpsv.stddev != null) {
psv.setStddev(divide(this.getStddev(), dpsv.getStddev()));
}
return psv;
}