photoprism/internal/entity/photo_estimate.go

186 lines
5.9 KiB
Go

package entity
import (
"time"
"github.com/jinzhu/gorm"
"github.com/photoprism/photoprism/pkg/fs"
"github.com/photoprism/photoprism/pkg/geo"
"github.com/photoprism/photoprism/pkg/txt"
)
// EstimateCountry updates the photo with an estimated country if possible.
func (m *Photo) EstimateCountry() {
if SrcPriority[m.PlaceSrc] > SrcPriority[SrcEstimate] || m.HasLocation() || m.HasPlace() {
// Ignore.
return
}
// Reset country.
unknown := UnknownCountry.ID
countryCode := unknown
// Try to guess country from photo title.
if code := txt.CountryCode(m.PhotoTitle); code != unknown && m.TitleSrc != SrcAuto {
countryCode = code
}
// Try to guess country from filename and path.
if countryCode == unknown {
if code := txt.CountryCode(m.PhotoName); code != unknown && !fs.IsGenerated(m.PhotoName) {
countryCode = code
} else if code := txt.CountryCode(m.PhotoPath); code != unknown {
countryCode = code
}
}
// Try to guess country from original filename.
if countryCode == unknown && m.OriginalName != "" && !fs.IsGenerated(m.OriginalName) {
if code := txt.CountryCode(m.OriginalName); code != UnknownCountry.ID {
countryCode = code
}
}
// Set new country?
if countryCode != unknown {
m.PhotoCountry = countryCode
m.PlaceSrc = SrcEstimate
m.EstimatedAt = TimePointer()
log.Debugf("photo: estimated country for %s is %s", m, txt.Quote(m.CountryName()))
}
}
// EstimateLocation updates the photo with an estimated place and country if possible.
func (m *Photo) EstimateLocation(force bool) {
if SrcPriority[m.PlaceSrc] > SrcPriority[SrcEstimate] || m.HasLocation() && m.PlaceSrc == SrcAuto {
// Ignore if location was set otherwise.
return
} else if force || m.EstimatedAt == nil {
// Proceed.
} else if hours := TimeStamp().Sub(*m.EstimatedAt) / time.Hour; hours < MetadataEstimateInterval {
// Ignore if estimated less than 7 days ago.
return
}
// Estimate country if taken date is unreliable.
if SrcPriority[m.TakenSrc] <= SrcPriority[SrcName] {
m.RemoveLocation(false)
m.EstimateCountry()
return
}
var err error
rangeMin := m.TakenAt.Add(-1 * time.Hour * 37)
rangeMax := m.TakenAt.Add(time.Hour * 37)
// Find photo with location info taken at a similar time...
var mostRecent Photos
switch DbDialect() {
case MySQL:
err = UnscopedDb().
Where("photo_lat <> 0 AND photo_lng <> 0").
Where("place_src <> '' AND place_src <> ? AND place_id IS NOT NULL AND place_id <> '' AND place_id <> 'zz'", SrcEstimate).
Where("taken_src <> '' AND taken_at BETWEEN CAST(? AS DATETIME) AND CAST(? AS DATETIME)", rangeMin, rangeMax).
Order(gorm.Expr("ABS(TIMESTAMPDIFF(SECOND, taken_at, ?))", m.TakenAt)).Limit(2).
Preload("Place").Find(&mostRecent).Error
case SQLite:
err = UnscopedDb().
Where("photo_lat <> 0 AND photo_lng <> 0").
Where("place_src <> '' AND place_src <> ? AND place_id IS NOT NULL AND place_id <> '' AND place_id <> 'zz'", SrcEstimate).
Where("taken_src <> '' AND taken_at BETWEEN ? AND ?", rangeMin, rangeMax).
Order(gorm.Expr("ABS(JulianDay(taken_at) - JulianDay(?))", m.TakenAt)).Limit(2).
Preload("Place").Find(&mostRecent).Error
default:
log.Warnf("photo: unsupported sql dialect %s", txt.Quote(DbDialect()))
return
}
if err != nil {
log.Warnf("photo: %s while estimating position", err)
}
// Found?
if len(mostRecent) == 0 {
log.Debugf("photo: unknown position at %s", m.TakenAt)
m.RemoveLocation(false)
m.EstimateCountry()
} else if recentPhoto := mostRecent[0]; recentPhoto.HasLocation() && recentPhoto.HasPlace() {
// Too much time difference?
if hours := recentPhoto.TakenAt.Sub(m.TakenAt) / time.Hour; hours < -36 || hours > 36 {
log.Debugf("photo: skipping %s, %d hours time difference to recent position", m, hours)
m.RemoveLocation(false)
m.EstimateCountry()
} else if len(mostRecent) == 1 {
m.RemoveLocation(false)
m.Place = recentPhoto.Place
m.PlaceID = recentPhoto.PlaceID
m.PhotoCountry = recentPhoto.PhotoCountry
m.PlaceSrc = SrcEstimate
m.UpdateTimeZone(recentPhoto.TimeZone)
log.Debugf("photo: approximate place of %s is %s (id %s)", m, txt.Quote(m.Place.Label()), recentPhoto.PlaceID)
} else if recentPhoto.HasPlace() {
p1 := mostRecent[0]
p2 := mostRecent[1]
movement := geo.NewMovement(p1.Position(), p2.Position())
if movement.Km() < 100 {
estimate := movement.EstimatePosition(m.TakenAt)
if m.CellID != UnknownID && estimate.InRange(float64(m.PhotoLat), float64(m.PhotoLng), geo.Meter*50) {
log.Debugf("photo: keeping position estimate %f, %f for %s", m.PhotoLat, m.PhotoLng, m.String())
} else {
estimate.Randomize(geo.Meter * 5)
m.PhotoLat = float32(estimate.Lat)
m.PhotoLng = float32(estimate.Lng)
m.PlaceSrc = SrcEstimate
m.CellAccuracy = estimate.Accuracy
m.SetAltitude(estimate.AltitudeInt(), SrcEstimate)
log.Debugf("photo: %s %s", m.String(), estimate.String())
m.UpdateLocation()
if m.Place == nil {
log.Warnf("photo: failed updating position of %s", m)
} else {
log.Debugf("photo: approximate place of %s is %s (id %s)", m, txt.Quote(m.Place.Label()), m.PlaceID)
}
}
} else {
m.RemoveLocation(false)
m.Place = recentPhoto.Place
m.PlaceID = recentPhoto.PlaceID
m.PlaceSrc = SrcEstimate
m.PhotoCountry = recentPhoto.PhotoCountry
m.SetAltitude(movement.EstimateAltitudeInt(m.TakenAt), SrcEstimate)
m.UpdateTimeZone(recentPhoto.TimeZone)
}
} else if recentPhoto.HasCountry() {
m.RemoveLocation(false)
m.PhotoCountry = recentPhoto.PhotoCountry
m.PlaceSrc = SrcEstimate
m.UpdateTimeZone(recentPhoto.TimeZone)
log.Debugf("photo: probable country for %s is %s", m, txt.Quote(m.CountryName()))
} else {
m.RemoveLocation(false)
m.EstimateCountry()
}
} else {
log.Warnf("photo: %s has no location, uid %s", recentPhoto.PhotoName, recentPhoto.PhotoUID)
m.RemoveLocation(false)
m.EstimateCountry()
}
m.EstimatedAt = TimePointer()
}