// getTraceDBEntries returns a map of tracedb.Entry instances.
func (b *BenchData) getTraceDBEntries() map[string]*tracedb.Entry {
ret := make(map[string]*tracedb.Entry, len(b.Results))
keyPrefix := b.keyPrefix()
for testName, allConfigs := range b.Results {
for configName, result := range allConfigs {
key := fmt.Sprintf("%s:%s:%s", keyPrefix, testName, configName)
// Construct the Traces params from all the options.
params := util.CopyStringMap(b.Key)
params["test"] = testName
params["config"] = configName
util.AddParams(params, b.Options)
// If there is an options map inside the result add it to the params.
if resultOptions, ok := result["options"]; ok {
if opts, ok := resultOptions.(map[string]interface{}); ok {
for k, vi := range opts {
if s, ok := vi.(string); ok {
params[k] = s
}
}
}
}
// We used to just pick out only "min_ms" as the only result of a bunch
// of key, value pairs in the result, such as max_ms, mean_ms, etc. Now
// nanobench uploads only the metrics we are interested in, so we need to
// use all the values there, except 'options'.
for k, vi := range result {
if k == "options" {
continue
}
floatVal, ok := vi.(float64)
if !ok {
glog.Errorf("Found a non-float64 in %s", key)
continue
}
params["sub_result"] = k
perResultKey := key
if k != "min_ms" {
perResultKey = fmt.Sprintf("%s:%s", perResultKey, k)
}
paramsCopy := util.CopyStringMap(params)
ret[perResultKey] = &tracedb.Entry{
Params: paramsCopy,
Value: types.BytesFromFloat64(floatVal),
}
}
}
}
return ret
}
// searchByIssue searches across the given issue.
func searchByIssue(issue string, q *Query, exp *expstorage.Expectations, parsedQuery url.Values, storages *storage.Storage, tile *tiling.Tile, tallies *tally.Tallies, tileParamSet *paramsets.Summary) ([]*Digest, error) {
trybotResults, err := storages.TrybotResults.Get(issue)
if err != nil {
return nil, err
}
// Get a matcher for the ignore rules if we filter ignores.
var ignoreMatcher ignore.RuleMatcher = nil
if !q.IncludeIgnores {
ignoreMatcher, err = storages.IgnoreStore.BuildRuleMatcher()
if err != nil {
return nil, fmt.Errorf("Unable to build rules matcher: %s", err)
}
}
// Set up a rule to match the query.
var queryRule ignore.QueryRule = nil
if len(parsedQuery) > 0 {
queryRule = ignore.NewQueryRule(parsedQuery)
}
// Aggregate the results into an intermediate representation to avoid
// passing over the dataset twice.
inter := map[string]*issueIntermediate{}
talliesByTest := tallies.ByTest()
for _, bot := range trybotResults.Bots {
for _, result := range bot.TestResults {
expandedParams := util.CopyStringMap(bot.BotParams)
util.AddParams(expandedParams, result.Params)
if ignoreMatcher != nil {
if _, ok := ignoreMatcher(expandedParams); ok {
continue
}
}
if (queryRule == nil) || queryRule.IsMatch(expandedParams) {
testName := expandedParams[types.PRIMARY_KEY_FIELD]
digest := trybotResults.Digests[result.DigestIdx]
key := testName + ":" + digest
if !q.IncludeMaster {
if _, ok := talliesByTest[testName][digest]; ok {
continue
}
}
if found, ok := inter[key]; ok {
found.add(expandedParams)
} else if cl := exp.Classification(testName, digest); !q.excludeClassification(cl) {
inter[key] = newIssueIntermediate(expandedParams, digest, cl)
}
}
}
}
// Build the output and make sure the digest are cached on disk.
digests := make(map[string]bool, len(inter))
ret := make([]*Digest, 0, len(inter))
emptyTraces := &Traces{}
for _, i := range inter {
ret = append(ret, &Digest{
Test: i.test,
Digest: i.digest,
Status: i.status.String(),
ParamSet: i.paramSet,
Diff: buildDiff(i.test, i.digest, exp, tile, talliesByTest, nil, storages.DiffStore, tileParamSet, q.IncludeIgnores),
Traces: emptyTraces,
})
digests[i.digest] = true
}
// This ensures that all digests are cached on disk.
storages.DiffStore.AbsPath(util.KeysOfStringSet(digests))
return ret, nil
}