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priorsThreaded.go
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priorsThreaded.go
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// Copyright 2015-2016 Zack Scholl. All rights reserved.
// Use of this source code is governed by a AGPL
// license that can be found in the LICENSE file.
// priorsThreaded.go contains the main Prior-calculation function which is multi-threaded
package main
import (
"fmt"
"log"
"math"
"path"
"runtime"
"github.com/boltdb/bolt"
)
// following this:https://play.golang.org/p/hK2h-irKyz
type resultA struct {
mixin float64
locationGuess string
locationTrue string
n string
}
type jobA struct {
mixin float64
locs []string
bayes1 []float64
bayes2 []float64
n string
locationTrue string
}
// MaxParallelism returns the maximum parallelism https://stackoverflow.com/questions/13234749/golang-how-to-verify-number-of-processors-on-which-a-go-program-is-running
func MaxParallelism() int {
maxProcs := runtime.GOMAXPROCS(0)
numCPU := runtime.NumCPU()
if maxProcs < numCPU {
return maxProcs
}
return numCPU
}
func worker(id int, jobs <-chan jobA, results chan<- resultA) {
for j := range jobs {
maxVal := float64(-1)
locationGuess := ""
for i, loc := range j.locs {
PBayesMix := j.mixin*j.bayes1[i] + (1-j.mixin)*j.bayes2[i]
if PBayesMix > maxVal {
maxVal = PBayesMix
locationGuess = loc
}
}
results <- resultA{locationGuess: locationGuess,
locationTrue: j.locationTrue,
mixin: j.mixin,
n: j.n}
}
}
// optimizePriorsThreaded generates the optimized prior data for Naive-Bayes classification.
func optimizePriorsThreaded(group string) error {
// Debug.Println("Optimizing priors for " + group)
// generate the fingerprintsInMemory
fingerprintsInMemory := make(map[string]Fingerprint)
var fingerprintsOrdering []string
db, err := bolt.Open(path.Join(RuntimeArgs.SourcePath, group+".db"), 0600, nil)
if err != nil {
log.Fatal(err)
return err
}
err = db.View(func(tx *bolt.Tx) error {
b := tx.Bucket([]byte("fingerprints"))
if b == nil {
return fmt.Errorf("No fingerprint bucket")
}
c := b.Cursor()
for k, v := c.First(); k != nil; k, v = c.Next() {
fingerprintsInMemory[string(k)] = loadFingerprint(v)
fingerprintsOrdering = append(fingerprintsOrdering, string(k))
}
return nil
})
db.Close()
if err != nil {
return err
}
var ps = *NewFullParameters()
getParameters(group, &ps, fingerprintsInMemory, fingerprintsOrdering)
calculatePriors(group, &ps, fingerprintsInMemory, fingerprintsOrdering)
var results = *NewResultsParameters()
for n := range ps.Priors {
ps.Results[n] = results
}
// loop through these parameters
mixins := []float64{0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9}
mixinOverride, _ := getMixinOverride(group)
if mixinOverride >= 0 && mixinOverride <= 1 {
mixins = []float64{mixinOverride}
}
// Choose cutoff
cutoffs := []float64{0.005, 0.05, 0.1}
cutoffOverride, _ := getCutoffOverride(group)
if cutoffOverride >= 0 && cutoffOverride <= 1 {
cutoffs = []float64{cutoffOverride}
}
bestMixin := make(map[string]float64)
bestResult := make(map[string]float64)
bestCutoff := make(map[string]float64)
for n := range ps.Priors {
bestResult[n] = 0
bestMixin[n] = 0
bestCutoff[n] = 0
}
for _, cutoff := range cutoffs {
// network id loc value
PBayes1 := make(map[string]map[string]map[string]float64)
PBayes2 := make(map[string]map[string]map[string]float64)
totalJobs := 0
for n := range ps.Priors {
it := float64(-1)
PBayes1[n] = make(map[string]map[string]float64)
PBayes2[n] = make(map[string]map[string]float64)
PBayes1[n] = make(map[string]map[string]float64)
PBayes2[n] = make(map[string]map[string]float64)
for _, v1 := range fingerprintsOrdering {
it++
if math.Mod(it, FoldCrossValidation) != 0 {
_, ok := ps.NetworkLocs[n][fingerprintsInMemory[v1].Location]
if len(fingerprintsInMemory[v1].WifiFingerprint) == 0 || !ok {
continue
}
totalJobs++
PBayes1[n][v1], PBayes2[n][v1] = calculatePosteriorThreadSafe(fingerprintsInMemory[v1], ps, cutoff)
}
}
}
numJobs := len(mixins) * totalJobs
runtime.GOMAXPROCS(MaxParallelism())
chanJobs := make(chan jobA, 1+numJobs)
chanResults := make(chan resultA, 1+numJobs)
for w := 1; w <= MaxParallelism(); w++ {
go worker(w, chanJobs, chanResults)
}
finalResults := make(map[string]map[float64]ResultsParameters)
for n := range ps.Priors {
finalResults[n] = make(map[float64]ResultsParameters)
for _, mixin := range mixins {
finalResults[n][mixin] = *NewResultsParameters()
for loc := range ps.NetworkLocs[n] {
finalResults[n][mixin].TotalLocations[loc] = 0
finalResults[n][mixin].CorrectLocations[loc] = 0
finalResults[n][mixin].Accuracy[loc] = 0
finalResults[n][mixin].Guess[loc] = make(map[string]int)
}
// Loop through each fingerprint
for id := range PBayes1[n] {
locs := []string{}
bayes1 := []float64{}
bayes2 := []float64{}
for key := range PBayes1[n][id] {
locs = append(locs, key)
bayes1 = append(bayes1, PBayes1[n][id][key])
bayes2 = append(bayes2, PBayes2[n][id][key])
}
trueLoc := fingerprintsInMemory[id].Location
chanJobs <- jobA{n: n,
mixin: mixin,
locs: locs,
locationTrue: trueLoc,
bayes1: bayes1,
bayes2: bayes2}
}
}
}
close(chanJobs)
for a := 1; a <= numJobs; a++ {
t := <-chanResults
finalResults[t.n][t.mixin].TotalLocations[t.locationTrue]++
if t.locationGuess == t.locationTrue {
finalResults[t.n][t.mixin].CorrectLocations[t.locationTrue]++
}
if _, ok := finalResults[t.n][t.mixin].Guess[t.locationTrue]; !ok {
finalResults[t.n][t.mixin].Guess[t.locationTrue] = make(map[string]int)
}
if _, ok := finalResults[t.n][t.mixin].Guess[t.locationTrue][t.locationGuess]; !ok {
finalResults[t.n][t.mixin].Guess[t.locationTrue][t.locationGuess] = 0
}
finalResults[t.n][t.mixin].Guess[t.locationTrue][t.locationGuess]++
}
for n := range ps.Priors {
for mixin := range finalResults[n] {
average := float64(0)
it := 0
for loc := range finalResults[n][mixin].TotalLocations {
if finalResults[n][mixin].TotalLocations[loc] > 0 {
finalResults[n][mixin].Accuracy[loc] = int(100.0 * finalResults[n][mixin].CorrectLocations[loc] / finalResults[n][mixin].TotalLocations[loc])
// Debug.Println(n, mixin, cutoff, loc, finalResults[n][mixin].Accuracy[loc])
average += float64(finalResults[n][mixin].Accuracy[loc])
it++
}
}
average = average / float64(it)
// fmt.Println(mixin, average)
if average > bestResult[n] {
bestResult[n] = average
bestMixin[n] = mixin
bestCutoff[n] = cutoff
}
}
}
}
// Load new priors and calculate new cross Validation
for n := range ps.Priors {
ps.Priors[n].Special["MixIn"] = bestMixin[n]
ps.Priors[n].Special["VarabilityCutoff"] = bestCutoff[n]
crossValidation(group, n, &ps, fingerprintsInMemory, fingerprintsOrdering)
}
// Debug.Println(getUsers(group))
go resetCache("usersCache")
go saveParameters(group, ps)
go setPsCache(group, ps)
return nil
}
func optimizePriorsThreadedNot(group string) {
// generate the fingerprintsInMemory
// Debug.Println("Optimizing priors for " + group)
fingerprintsInMemory := make(map[string]Fingerprint)
var fingerprintsOrdering []string
db, err := bolt.Open(path.Join(RuntimeArgs.SourcePath, group+".db"), 0600, nil)
if err != nil {
log.Fatal(err)
}
db.View(func(tx *bolt.Tx) error {
b := tx.Bucket([]byte("fingerprints"))
c := b.Cursor()
for k, v := c.First(); k != nil; k, v = c.Next() {
fingerprintsInMemory[string(k)] = loadFingerprint(v)
fingerprintsOrdering = append(fingerprintsOrdering, string(k))
}
return nil
})
db.Close()
var ps = *NewFullParameters()
getParameters(group, &ps, fingerprintsInMemory, fingerprintsOrdering)
calculatePriors(group, &ps, fingerprintsInMemory, fingerprintsOrdering)
var results = *NewResultsParameters()
for n := range ps.Priors {
ps.Results[n] = results
}
// loop through these parameters
mixins := []float64{0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9}
// cutoff := 0.1
cutoffs := []float64{0.005, 0.05, 0.1}
bestMixin := make(map[string]float64)
bestResult := make(map[string]float64)
bestCutoff := make(map[string]float64)
for n := range ps.Priors {
bestResult[n] = 0
bestMixin[n] = 0
bestCutoff[n] = 0
}
for _, cutoff := range cutoffs {
// network id loc value
PBayes1 := make(map[string]map[string]map[string]float64)
PBayes2 := make(map[string]map[string]map[string]float64)
totalJobs := 0
for n := range ps.Priors {
it := float64(-1)
PBayes1[n] = make(map[string]map[string]float64)
PBayes2[n] = make(map[string]map[string]float64)
PBayes1[n] = make(map[string]map[string]float64)
PBayes2[n] = make(map[string]map[string]float64)
for _, v1 := range fingerprintsOrdering {
it++
if math.Mod(it, FoldCrossValidation) != 0 {
_, ok := ps.NetworkLocs[n][fingerprintsInMemory[v1].Location]
if len(fingerprintsInMemory[v1].WifiFingerprint) == 0 || !ok {
continue
}
totalJobs++
PBayes1[n][v1], PBayes2[n][v1] = calculatePosteriorThreadSafe(fingerprintsInMemory[v1], ps, cutoff)
}
}
}
finalResults := make(map[string]map[float64]ResultsParameters)
bestMixin := make(map[string]float64)
bestResult := make(map[string]float64)
for n := range ps.Priors {
bestResult[n] = 0
bestMixin[n] = 0
finalResults[n] = make(map[float64]ResultsParameters)
for _, mixin := range mixins {
finalResults[n][mixin] = *NewResultsParameters()
for loc := range ps.NetworkLocs[n] {
finalResults[n][mixin].TotalLocations[loc] = 0
finalResults[n][mixin].CorrectLocations[loc] = 0
finalResults[n][mixin].Accuracy[loc] = 0
finalResults[n][mixin].Guess[loc] = make(map[string]int)
}
// Loop through each fingerprint
for id := range PBayes1[n] {
maxVal := float64(-1)
locationGuess := ""
for key := range PBayes1[n][id] {
PBayesMix := mixin*PBayes1[n][id][key] + (1-mixin)*PBayes2[n][id][key]
if PBayesMix > maxVal {
maxVal = PBayesMix
locationGuess = key
}
locationTrue := fingerprintsInMemory[id].Location
finalResults[n][mixin].TotalLocations[locationTrue]++
if locationGuess == locationTrue {
finalResults[n][mixin].CorrectLocations[locationTrue]++
}
if _, ok := finalResults[n][mixin].Guess[locationTrue]; !ok {
finalResults[n][mixin].Guess[locationTrue] = make(map[string]int)
}
if _, ok := finalResults[n][mixin].Guess[locationTrue][locationGuess]; !ok {
finalResults[n][mixin].Guess[locationTrue][locationGuess] = 0
}
finalResults[n][mixin].Guess[locationTrue][locationGuess]++
}
}
average := float64(0)
it := 0
for loc := range finalResults[n][mixin].TotalLocations {
if finalResults[n][mixin].TotalLocations[loc] > 0 {
finalResults[n][mixin].Accuracy[loc] = int(100.0 * finalResults[n][mixin].CorrectLocations[loc] / finalResults[n][mixin].TotalLocations[loc])
average += float64(finalResults[n][mixin].Accuracy[loc])
it++
}
}
average = average / float64(it)
// fmt.Println(mixin, average, a)
if average > bestResult[n] {
bestResult[n] = average
bestMixin[n] = mixin
bestCutoff[n] = cutoff
}
}
}
}
// Load new priors and calculate new cross Validation
for n := range ps.Priors {
ps.Priors[n].Special["MixIn"] = bestMixin[n]
ps.Priors[n].Special["VarabilityCutoff"] = bestCutoff[n]
crossValidation(group, n, &ps, fingerprintsInMemory, fingerprintsOrdering)
}
go saveParameters(group, ps)
go setPsCache(group, ps)
// Debug.Println("Analyzed ", totalJobs, " fingerprints")
}