func serfr1AtReport(c appengine.Context, s, e time.Time, opt ReportOptions) ([]ReportRow, ReportMetadata, error) {
meta := ReportMetadata{}
fdb := fdb.FlightDB{C: c}
maybeMemcache(&fdb, e)
tags := []string{flightdb.KTagSERFR1}
pos := sfo.KFixes[opt.Waypoint]
out := []ReportRow{}
iter := fdb.NewIter(fdb.QueryTimeRangeByTags(tags, s, e))
nSerfr1 := 0
for {
f, err := iter.NextWithErr()
if err != nil {
fdb.C.Errorf("serfr1AtReport iterator failed: %v", err)
return nil, nil, err
} else if f == nil {
break // We've hit EOF
}
nSerfr1++
if _, exists := f.Tracks["ADSB"]; exists == true {
meta["[B] with data from "+f.Tracks["ADSB"].LongSource()]++
}
if _, exists := f.Tracks["FA"]; exists == true {
meta["[B] with data from "+f.Tracks["FA"].LongSource()]++
} else {
meta["[B] with data from "+f.Track.LongSource()]++
}
if itp, err := f.BestTrack().PointOfClosestApproach(pos); err != nil {
c.Infof("Skipping flight %s: err=%v", f, err)
} else {
url := template.HTML(fmt.Sprintf("%s&waypoint=%s", flight2Url(*f), opt.Waypoint))
f.Tracks = nil // avoid running out of F1 RAM!
row := SERFR1AtRow{url, *f, itp}
out = append(out, row)
}
}
meta["[A] Total SERFR1 flights "] = float64(nSerfr1)
return out, meta, nil
}
func serfr1Report(c appengine.Context, s, e time.Time, opt ReportOptions) ([]ReportRow, ReportMetadata, error) {
fdb := fdb.FlightDB{C: c}
maybeMemcache(&fdb, e)
meta := ReportMetadata{}
out := []ReportRow{}
idspecs := []string{}
reportFunc := func(f *flightdb.Flight) {
classBViolation := f.HasTag(flightdb.KTagReliableClassBViolation)
hasAdsb := false
if _, exists := f.Tracks["ADSB"]; exists == true {
meta["[B] with data from "+f.Tracks["ADSB"].LongSource()]++
idspecs = append(idspecs, fmt.Sprintf("%s@%d", f.Id.ModeS, f.EnterUTC.Unix()))
}
if t, exists := f.Tracks["FA"]; exists == true {
meta["[B] with data from "+f.Tracks["FA"].LongSource()]++
hasAdsb = t.IsFromADSB()
} else {
meta["[B] with data from "+f.Track.LongSource()]++
}
fClone := f.ShallowCopy()
row := SERFR1Row{flight2Url(*fClone), *fClone, hasAdsb, classBViolation}
out = append(out, row)
}
tags := []string{flightdb.KTagSERFR1}
if err := fdb.IterWith(fdb.QueryTimeRangeByTags(tags, s, e), reportFunc); err != nil {
return nil, nil, err
}
approachUrl := fmt.Sprintf("http://ui-dot-serfr0-fdb.appspot.com/fdb/approach?idspec=%s",
strings.Join(idspecs, ","))
meta[fmt.Sprintf("[Z] %s", approachUrl)] = 1
meta["[A] Total SERFR1 flights "] = float64(len(out))
return out, meta, nil
}
func report3Handler(w http.ResponseWriter, r *http.Request) {
if r.FormValue("rep") == "" {
var params = map[string]interface{}{
"Yesterday": date.NowInPdt().AddDate(0, 0, -1),
"Reports": report.ListReports(),
"FormUrl": "/report3/",
"Waypoints": sfo.ListWaypoints(),
}
if err := templates.ExecuteTemplate(w, "report3-form", params); err != nil {
http.Error(w, err.Error(), http.StatusInternalServerError)
}
return
}
rep, err := report.SetupReport(r)
if err != nil {
http.Error(w, err.Error(), http.StatusInternalServerError)
return
}
if r.FormValue("debug") != "" {
str := fmt.Sprintf("Report Options\n\n%s\n", rep.Options)
w.Header().Set("Content-Type", "text/plain")
w.Write([]byte(fmt.Sprintf("OK\n\n%s\n", str)))
return
}
//airframes := ref.NewAirframeCache(c)
client := newurlfetch.Client(newappengine.NewContext(r))
metars, err := metar.FetchFromNOAA(client, "KSFO",
rep.Start.AddDate(0, 0, -1), rep.End.AddDate(0, 0, 1))
if err != nil {
http.Error(w, err.Error(), http.StatusInternalServerError)
return
}
v1idspecs := []string{}
v2idspecs := []string{}
v1idspecComplement := []string{}
reportFunc := func(oldF *oldfdb.Flight) {
newF, err := oldF.V2()
if err != nil {
http.Error(w, err.Error(), http.StatusInternalServerError)
} else {
newF.ComputeIndicatedAltitudes(metars)
if included, err := rep.Process(newF); err != nil {
http.Error(w, err.Error(), http.StatusInternalServerError)
} else if included {
v1idspecs = append(v1idspecs, oldF.UniqueIdentifier())
v2idspecs = append(v2idspecs, newF.IdSpec())
} else {
v1idspecComplement = append(v1idspecComplement, oldF.UniqueIdentifier())
}
}
}
tags := tagList(rep.Options)
db := oldfgae.FlightDB{C: oldappengine.Timeout(oldappengine.NewContext(r), 600*time.Second)}
s, e := rep.Start, rep.End
if err := db.LongIterWith(db.QueryTimeRangeByTags(tags, s, e), reportFunc); err != nil {
http.Error(w, err.Error(), http.StatusInternalServerError)
return
}
postButtons := ButtonPOST(fmt.Sprintf("%d Matches as a VectorMap", len(v1idspecs)),
fmt.Sprintf("/fdb/trackset2?%s", rep.ToCGIArgs()), v1idspecs)
postButtons += ButtonPOST(fmt.Sprintf("%d Non-matches as a VectorMap", len(v1idspecComplement)),
fmt.Sprintf("/fdb/trackset2?%s", rep.ToCGIArgs()), v1idspecComplement)
if rep.Name == "sfoclassb" {
postButtons += ButtonPOST(fmt.Sprintf("%d Matches as ClassBApproaches", len(v1idspecs)),
fmt.Sprintf("/fdb/approach2?%s", rep.ToCGIArgs()), v1idspecs)
// This is kinda useless, as it isn't limited to SERFR1 things
postButtons += ButtonPOST(fmt.Sprintf("%d Non-matches as ClassBApproaches", len(v1idspecComplement)),
fmt.Sprintf("/fdb/approach2?%s", rep.ToCGIArgs()), v1idspecComplement)
postButtons += ButtonPOST(fmt.Sprintf("%d Matches as ClassBApproaches (delta)",
len(v1idspecs)), fmt.Sprintf("/fdb/approach2?%s&colorby=delta", rep.ToCGIArgs()), v1idspecs)
// This is kinda useless, as it isn't limited to SERFR1 things
postButtons += ButtonPOST(fmt.Sprintf("%d Non-matches as ClassBApproaches (delta)",
len(v1idspecComplement)), fmt.Sprintf("/fdb/approach2?%s&colorby=delta",
rep.ToCGIArgs()), v1idspecComplement)
}
var params = map[string]interface{}{
"R": rep,
"Metadata": rep.MetadataTable(),
"PostButtons": template.HTML(postButtons),
"OptStr": template.HTML(fmt.Sprintf("<pre>%s</pre>\n", rep.Options)),
"IdSpecs": template.HTML(strings.Join(v1idspecs, ",")),
}
if err := templates.ExecuteTemplate(w, "report3-results", params); err != nil {
http.Error(w, err.Error(), http.StatusInternalServerError)
}
}
func serfr1ComplaintsReport(c appengine.Context, s, e time.Time, opt ReportOptions) ([]ReportRow, ReportMetadata, error) {
fdb := fdb.FlightDB{C: c}
maybeMemcache(&fdb, e)
cdb := complaintdb.ComplaintDB{C: c, Memcache: true}
meta := ReportMetadata{}
memKey := fmt.Sprintf("serfr1complaintsreport:%s:%d-%d", s.Unix(), e.Unix())
if rows, meta, err := reportFromMemcache(c, memKey); err == nil {
return rows, meta, err
}
if complaints, err := cdb.GetComplaintsInSpan(s, e); err != nil {
return nil, nil, err
} else {
meta["[B] Total disturbance reports"] = float64(len(complaints))
nFlights := 0
nFpC := map[string]int{} // num flights per carrier
nCpC := map[string]int{} // num complaints per carrier
// Aggregate complaints per flightnumber (as seen from complaints)
nC, nSB, nWC := map[string]int{}, map[string]int{}, map[string]int{}
for _, comp := range complaints {
if k := comp.AircraftOverhead.FlightNumber; k != "" {
nC[k] += 1
nWC[k] += comp.Loudness
if comp.HeardSpeedbreaks {
nSB[k] += 1
nWC[k] += 4
}
}
}
rows := []SCRow{}
reportFunc := func(f *flightdb.Flight) {
nFlights++
carrier := f.Id.Designator.IATAAirlineDesignator
if carrier != "" {
nFpC[carrier] += 1
}
if k := f.Id.Designator.String(); k != "" {
if carrier != "" {
nCpC[carrier] += nC[k]
}
fClone := f.ShallowCopy()
scRow := SCRow{
NumComplaints: nC[k],
NumSpeedbrakes: nSB[k],
WeightedComplaints: nWC[k],
F: *fClone,
}
rows = append(rows, scRow)
meta["[B] SERFR1 disturbance reports"] += float64(nC[k])
}
}
tags := []string{flightdb.KTagSERFR1}
if err := fdb.IterWith(fdb.QueryTimeRangeByTags(tags, s, e), reportFunc); err != nil {
return nil, nil, err
}
meta["[A] Total flights we saw on SERFR1"] += float64(nFlights)
meta["[C] Average number of reports per overflight"] =
float64(int64(float64(len(complaints)) / float64(nFlights)))
sort.Sort(SCRowByNumComplaints(rows))
out := []ReportRow{}
for _, r := range rows {
out = append(out, r)
}
bestCarrier, worstCarrier := "", ""
bestScore, worstScore := 999, -1
for carrier, nFlights := range nFpC {
if nFlights < 3 {
continue
}
cPerFlight := nCpC[carrier] / nFlights
if cPerFlight < bestScore {
bestCarrier, bestScore = carrier, cPerFlight
}
if cPerFlight > worstScore {
worstCarrier, worstScore = carrier, cPerFlight
}
}
meta["[D] Worst airline (average reports per overflight) - "+worstCarrier] = float64(worstScore)
meta["[E] Best airline (average reports per overflight) - "+bestCarrier] = float64(bestScore)
// reportToMemcache(c, out, meta, memKey)
return out, meta, nil
}
}
func classbReport(c appengine.Context, s, e time.Time, opt ReportOptions) ([]ReportRow, ReportMetadata, error) {
fdb := fdb.FlightDB{C: c}
maybeMemcache(&fdb, e)
tags := []string{
flightdb.KTagReliableClassBViolation,
flightdb.KTagLocalADSBClassBViolation,
}
meta := ReportMetadata{}
h := histogram.Histogram{} // Only use it for the stats
rows := []ReportRow{}
seen := map[string]bool{} // Because we do two passes, we might see same flight twice.
metars, err := metar.FetchFromNOAA(urlfetch.Client(c), "KSFO",
s.Add(-6*time.Hour), e.Add(6*time.Hour))
if err != nil {
return rows, meta, err
}
reportFunc := func(f *flightdb.Flight) {
if _, exists := seen[f.UniqueIdentifier()]; exists {
return
} else {
seen[f.UniqueIdentifier()] = true
}
bestTrack := "FA"
if f.HasTag(flightdb.KTagLocalADSBClassBViolation) {
bestTrack = "ADSB"
}
_, cbt := f.SFOClassB(bestTrack, metars)
tmpRows := []ReportRow{}
seq := 0
for _, cbtp := range cbt {
if cbtp.A.IsViolation() {
fClone := f.ShallowCopy()
tmpRows = append(tmpRows, CBRow{seq, flight2Url(*fClone), *fClone, cbtp.TP, cbtp.A})
seq++
}
}
if len(tmpRows) == 0 {
return
}
worstCBRow := tmpRows[0].(CBRow)
if seq > 0 {
// Select the worst row
n, belowBy := 0, 0.0
for i, row := range tmpRows {
if row.(CBRow).A.BelowBy > belowBy {
n, belowBy = i, row.(CBRow).A.BelowBy
}
}
worstCBRow = tmpRows[n].(CBRow)
worstCBRow.Seq = 0 // fake this out for the webpage
}
if opt.ClassB_LocalDataOnly && !f.HasTag(flightdb.KTagLocalADSBClassBViolation) {
meta["[C] -- Skippped; not local - "+worstCBRow.TP.LongSource()]++
} else {
meta["[C] -- Detected via "+worstCBRow.TP.LongSource()]++
h.Add(histogram.ScalarVal(worstCBRow.A.BelowBy))
if opt.ClassB_OnePerFlight {
rows = append(rows, worstCBRow)
} else {
rows = append(rows, tmpRows...)
}
}
}
// Need to do multiple passes, because of tagA-or-tagB sillness
// In each case, limit to SERFR1 flights
for _, tag := range tags {
theseTags := []string{tag, flightdb.KTagSERFR1}
if err := fdb.IterWith(fdb.QueryTimeRangeByTags(theseTags, s, e), reportFunc); err != nil {
return nil, nil, err
}
}
if n, err := fdb.CountTimeRangeByTags([]string{flightdb.KTagSERFR1}, s, e); err != nil {
return nil, nil, err
} else {
meta["[A] Total SERFR1 Flights"] = float64(n)
}
if stats, valid := h.Stats(); valid {
meta["[B] Num violating flights"] = float64(stats.N)
meta["[D] Mean violation below Class B floor"] = float64(int(stats.Mean))
meta["[D] Stddev"] = float64(int(stats.Stddev))
} else {
meta["[B] Num violating flights"] = 0.0
}
return rows, meta, nil
}
