photoprism/internal/entity/photo_location.go

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package entity
import (
"fmt"
"strings"
"time"
"github.com/dustin/go-humanize/english"
"github.com/photoprism/photoprism/internal/classify"
"github.com/photoprism/photoprism/internal/maps"
"github.com/photoprism/photoprism/pkg/clean"
"github.com/photoprism/photoprism/pkg/geo"
"github.com/photoprism/photoprism/pkg/txt"
"gopkg.in/photoprism/go-tz.v2/tz"
)
// SetCoordinates changes the photo lat, lng and altitude if not empty and from an acceptable source.
func (m *Photo) SetCoordinates(lat, lng float32, altitude int, source string) {
m.SetAltitude(altitude, source)
if lat == 0.0 && lng == 0.0 {
return
}
if SrcPriority[source] < SrcPriority[m.PlaceSrc] && m.HasLatLng() {
return
}
m.PhotoLat = lat
m.PhotoLng = lng
m.PlaceSrc = source
}
// SetAltitude sets the photo altitude if not empty and from an acceptable source.
func (m *Photo) SetAltitude(altitude int, source string) {
if altitude == 0 && source != SrcManual {
return
}
if SrcPriority[source] < SrcPriority[m.PlaceSrc] {
return
}
m.PhotoAltitude = altitude
}
// UnknownLocation tests if the photo has an unknown location.
func (m *Photo) UnknownLocation() bool {
return m.CellID == "" || m.CellID == UnknownLocation.ID || m.NoLatLng()
}
// SetPosition sets a position estimate.
func (m *Photo) SetPosition(pos geo.Position, source string, force bool) {
if SrcPriority[m.PlaceSrc] > SrcPriority[source] && !force {
return
} else if pos.Lat == 0 && pos.Lng == 0 {
return
}
if m.CellID != UnknownID && pos.InRange(float64(m.PhotoLat), float64(m.PhotoLng), geo.Meter*50) {
log.Debugf("photo: %s keeps position %f, %f", m.String(), m.PhotoLat, m.PhotoLng)
} else {
if pos.Estimate {
pos.Randomize(geo.Meter * 5)
}
m.PhotoLat = float32(pos.Lat)
m.PhotoLng = float32(pos.Lng)
m.PlaceSrc = source
m.CellAccuracy = pos.Accuracy
m.SetAltitude(pos.AltitudeInt(), source)
log.Debugf("photo: %s %s", m.String(), pos.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, clean.Log(m.Place.Label()), m.PlaceID)
}
}
}
// AdoptPlace sets the place based on another photo.
func (m *Photo) AdoptPlace(other Photo, source string, force bool) {
if SrcPriority[m.PlaceSrc] > SrcPriority[source] && !force {
return
} else if other.Place == nil {
return
} else if other.Place.Unknown() {
return
}
// Remove existing location labels if place changes.
if other.Place.ID != m.PlaceID {
m.RemoveLocationLabels()
}
m.RemoveLocation(source, force)
m.Place = other.Place
m.PlaceID = other.PlaceID
m.PhotoCountry = other.PhotoCountry
m.PlaceSrc = source
m.UpdateTimeZone(other.TimeZone)
log.Debugf("photo: %s now located at %s (id %s)", m.String(), clean.Log(m.Place.Label()), m.PlaceID)
}
// RemoveLocation removes the current location.
func (m *Photo) RemoveLocation(source string, force bool) {
if SrcPriority[m.PlaceSrc] > SrcPriority[source] && !force {
return
}
// Reset latitude and longitude.
m.PhotoLat = 0
m.PhotoLng = 0
// Reset cell reference.
m.Cell = &UnknownLocation
m.CellID = UnknownLocation.ID
m.CellAccuracy = 0
// Reset country code.
m.PhotoCountry = UnknownCountry.ID
// Reset place reference.
m.Place = &UnknownPlace
m.PlaceID = UnknownPlace.ID
// Reset place source.
m.PlaceSrc = SrcAuto
}
// RemoveLocationLabels removes existing location labels.
func (m *Photo) RemoveLocationLabels() {
if len(m.Labels) == 0 {
res := Db().Delete(PhotoLabel{}, "photo_id = ? AND label_src = ?", m.ID, SrcLocation)
if res.Error != nil {
Log("photo", "remove location labels", res.Error)
} else if res.RowsAffected > 0 {
log.Infof("photo: removed %s from %s",
english.Plural(int(res.RowsAffected), "location label", "location labels"), m)
}
return
}
labels := make([]PhotoLabel, 0, len(m.Labels))
for _, l := range m.Labels {
if l.LabelSrc != SrcLocation {
labels = append(labels, l)
continue
}
Log("photo", "remove location label", l.Delete())
}
removed := len(m.Labels) - len(labels)
if removed > 0 {
log.Infof("photo: removed %s from %s",
english.Plural(removed, "location label", "location labels"), m)
m.Labels = labels
}
}
// HasLocation tests if the photo has a known location.
func (m *Photo) HasLocation() bool {
return !m.UnknownLocation()
}
// TrustedLocation tests if the photo has a known location from a trusted source.
func (m *Photo) TrustedLocation() bool {
return m.HasLocation() && SrcPriority[m.PlaceSrc] > SrcPriority[SrcEstimate]
}
// LocationLoaded tests if the photo has a known location that is currently loaded.
func (m *Photo) LocationLoaded() bool {
if m.Cell == nil {
return false
}
if m.Cell.Place == nil {
return false
}
return !m.Cell.Unknown() && m.Cell.ID == m.CellID
}
// LoadLocation loads the photo location from the database if not done already.
func (m *Photo) LoadLocation() error {
if m.LocationLoaded() {
return nil
}
if m.UnknownLocation() {
return fmt.Errorf("photo: unknown location (%s)", m)
}
var location Cell
err := Db().Preload("Place").First(&location, "id = ?", m.CellID).Error
if err != nil {
return err
}
if location.Place == nil {
location.Place = &UnknownPlace
location.PlaceID = UnknownPlace.ID
}
m.Cell = &location
return nil
}
// PlaceLoaded checks if the photo has a known place that is currently loaded.
func (m *Photo) PlaceLoaded() bool {
if m.Place == nil {
return false
}
return !m.Place.Unknown() && m.Place.ID == m.PlaceID
}
// LoadPlace loads the photo place from the database if not done already.
func (m *Photo) LoadPlace() error {
if m.PlaceLoaded() {
return nil
}
if m.UnknownPlace() {
return fmt.Errorf("photo: unknown place (%s)", m)
}
var place Place
err := Db().First(&place, "id = ?", m.PlaceID).Error
if err != nil {
return err
}
m.Place = &place
return nil
}
// Position returns the coordinates as geo.Position.
func (m *Photo) Position() geo.Position {
return geo.Position{Name: m.String(), Time: m.TakenAt.UTC(),
Lat: float64(m.PhotoLat), Lng: float64(m.PhotoLng), Altitude: float64(m.PhotoAltitude)}
}
// HasLatLng checks if the photo has a latitude and longitude.
func (m *Photo) HasLatLng() bool {
return m.PhotoLat != 0.0 || m.PhotoLng != 0.0
}
// NoLatLng checks if latitude and longitude are missing.
func (m *Photo) NoLatLng() bool {
return !m.HasLatLng()
}
// UnknownPlace checks if the photo has an unknown place.
func (m *Photo) UnknownPlace() bool {
return m.PlaceID == "" || m.PlaceID == UnknownPlace.ID
}
// HasPlace checks if the photo has a known place.
func (m *Photo) HasPlace() bool {
return !m.UnknownPlace()
}
// HasCountry checks if the photo has a known country.
func (m *Photo) HasCountry() bool {
return !m.UnknownCountry()
}
// UnknownCountry checks if the photo has an unknown country.
func (m *Photo) UnknownCountry() bool {
return m.CountryCode() == UnknownCountry.ID
}
// GetTimeZone uses PhotoLat and PhotoLng to guess the time zone of the photo.
func (m *Photo) GetTimeZone() string {
result := "UTC"
if m.HasLatLng() {
zones, err := tz.GetZone(tz.Point{
Lat: float64(m.PhotoLat),
Lon: float64(m.PhotoLng),
})
if err == nil && len(zones) > 0 {
result = zones[0]
}
}
return result
}
// CountryName returns the photo country name.
func (m *Photo) CountryName() string {
if name, ok := maps.CountryNames[m.CountryCode()]; ok {
return name
}
return UnknownCountry.CountryName
}
// CountryCode returns the photo country code.
func (m *Photo) CountryCode() string {
if len(m.PhotoCountry) != 2 {
m.PhotoCountry = UnknownCountry.ID
}
return m.PhotoCountry
}
// GetTakenAt returns UTC time for TakenAtLocal.
func (m *Photo) GetTakenAt() time.Time {
location, err := time.LoadLocation(m.TimeZone)
if err != nil {
return m.TakenAt
}
if takenAt, err := time.ParseInLocation("2006-01-02T15:04:05", m.TakenAtLocal.Format("2006-01-02T15:04:05"), location); err != nil {
return m.TakenAt
} else {
return takenAt.UTC()
}
}
// GetTakenAtLocal returns local time for TakenAt.
func (m *Photo) GetTakenAtLocal() time.Time {
location, err := time.LoadLocation(m.TimeZone)
if err != nil {
return m.TakenAtLocal
}
if takenAtLocal, err := time.ParseInLocation("2006-01-02T15:04:05", m.TakenAt.In(location).Format("2006-01-02T15:04:05"), time.UTC); err != nil {
return m.TakenAtLocal
} else {
return takenAtLocal.UTC()
}
}
// UpdateLocation updates location and labels based on latitude and longitude.
func (m *Photo) UpdateLocation() (keywords []string, labels classify.Labels) {
if m.HasLatLng() {
var loc = NewCell(m.PhotoLat, m.PhotoLng)
if loc.Unknown() {
// Empty or unknown S2 cell id... should not happen, unless coordinates are invalid.
log.Warnf("photo: unknown cell id for lat %f, lng %f (uid %s)", m.PhotoLat, m.PhotoLng, m.PhotoUID)
} else if err := loc.Find(GeoApi); err != nil {
log.Errorf("photo: %s (find location)", err)
} else if loc.Place == nil {
log.Warnf("photo: failed fetching geo data (uid %s, cell %s)", m.PhotoUID, loc.ID)
} else if loc.ID != UnknownLocation.ID {
changed := m.CellID != loc.ID
if changed {
log.Debugf("photo: changing location of %s from %s to %s", m.String(), m.CellID, loc.ID)
m.RemoveLocationLabels()
}
m.Cell = loc
m.CellID = loc.ID
m.Place = loc.Place
m.PlaceID = loc.PlaceID
m.PhotoCountry = loc.CountryCode()
if changed && m.TakenSrc != SrcManual {
m.UpdateTimeZone(m.GetTimeZone())
}
FirstOrCreateCountry(NewCountry(loc.CountryCode(), loc.CountryName()))
locCategory := loc.Category()
keywords = append(keywords, loc.Keywords()...)
// Append category from reverse location lookup
if locCategory != "" {
labels = append(labels, classify.LocationLabel(locCategory, 0))
}
return keywords, labels
}
}
keywords = []string{}
labels = classify.Labels{}
if m.UnknownLocation() {
m.Cell = &UnknownLocation
m.CellID = UnknownLocation.ID
// Remove place estimate if better data is available.
if SrcPriority[m.PlaceSrc] > SrcPriority[SrcEstimate] {
m.Place = &UnknownPlace
m.PlaceID = UnknownPlace.ID
}
} else if err := m.LoadLocation(); err == nil {
m.Place = m.Cell.Place
m.PlaceID = m.Cell.PlaceID
} else {
log.Warnf("photo: location %s not found in %s", m.CellID, m.PhotoName)
}
if m.UnknownPlace() {
m.Place = &UnknownPlace
m.PlaceID = UnknownPlace.ID
} else if err := m.LoadPlace(); err == nil {
m.PhotoCountry = m.Place.CountryCode()
} else {
log.Warnf("photo: place %s not found in %s", m.PlaceID, m.PhotoName)
}
if m.UnknownCountry() && m.CellID == UnknownID && m.PlaceID == UnknownID {
m.EstimateCountry()
}
if m.HasCountry() {
FirstOrCreateCountry(NewCountry(m.CountryCode(), m.CountryName()))
}
return keywords, labels
}
// SaveLocation updates location data and saves the photo metadata back to the index.
func (m *Photo) SaveLocation() error {
locKeywords, labels := m.UpdateLocation()
m.AddLabels(labels)
w := txt.UniqueWords(txt.Words(m.GetDetails().Keywords))
w = append(w, locKeywords...)
m.GetDetails().Keywords = strings.Join(txt.UniqueWords(w), ", ")
if err := m.SyncKeywordLabels(); err != nil {
log.Errorf("photo: %s %s while syncing keywords and labels", m.String(), err)
}
if err := m.UpdateTitle(m.ClassifyLabels()); err != nil {
log.Info(err)
}
if err := m.IndexKeywords(); err != nil {
log.Errorf("photo: %s %s while indexing keywords", m.String(), err)
}
return m.Save()
}