215 lines
4.8 KiB
Go
215 lines
4.8 KiB
Go
package geo
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import (
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"fmt"
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"math"
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"time"
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)
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// Movement represents a position change in degrees per second.
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type Movement struct {
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Start Position
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End Position
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}
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// NewMovement returns the movement between two positions and points in time.
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func NewMovement(pos1, pos2 Position) (m Movement) {
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// Make sure start and end are in the right order.
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if d := pos1.Time.Sub(pos2.Time); d > 0 {
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return Movement{Start: pos2, End: pos1}
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} else {
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return Movement{Start: pos1, End: pos2}
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}
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}
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// Duration calculates the movement duration.
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func (m *Movement) Duration() time.Duration {
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return m.End.Time.Sub(m.Start.Time)
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}
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// Deg calculates the position change in degrees.
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func (m *Movement) Deg() (lat, lng float64) {
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return m.DegLat(), m.DegLng()
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}
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// DegLng calculates the longitude change in degrees.
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func (m *Movement) DegLng() float64 {
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return m.End.Lng - m.Start.Lng
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}
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// DegLat calculates the latitude change in degrees.
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func (m *Movement) DegLat() float64 {
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return m.End.Lat - m.Start.Lat
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}
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// DegPerSecond returns the position change in degrees per second.
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func (m *Movement) DegPerSecond() (latSec, lngSec float64) {
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s := m.Seconds()
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if s < 1 {
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return 0, 0
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}
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latSec = m.DegLat() / s
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lngSec = m.DegLng() / s
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return latSec, lngSec
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}
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// Km calculates the movement distance in km.
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func (m *Movement) Km() float64 {
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return math.Abs(Km(m.Start, m.End))
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}
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// Meter calculates the movement distance in m.
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func (m *Movement) Meter() float64 {
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return m.Km() * 1000
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}
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// Speed calculates the average movement speed in km/h.
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func (m *Movement) Speed() float64 {
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km := m.Km()
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if km == 0 {
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return 0
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}
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h := m.Hours()
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if h == 0 {
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return 0
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}
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return km / h
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}
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// Midpoint returns the movement midpoint position.
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func (m *Movement) Midpoint() Position {
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return Position{
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Name: "midpoint",
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Lat: (m.Start.Lat + m.End.Lat) / 2,
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Lng: (m.Start.Lng + m.End.Lng) / 2,
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}
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}
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// Seconds returns the movement duration in seconds.
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func (m *Movement) Seconds() float64 {
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return math.Abs(m.Duration().Seconds())
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}
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// Hours returns the movement duration in hours.
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func (m *Movement) Hours() float64 {
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return math.Abs(m.Duration().Hours())
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}
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// String returns the movement information as string for logging.
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func (m *Movement) String() string {
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lat, lng := m.Deg()
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return fmt.Sprintf("movement from %s to %s in %f s, Δ lat %f, Δ lng %f, dist %f km, speed %f km/h",
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m.Start.Time.Format("2006-01-02 15:04:05.999999999"),
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m.End.Time.Format("2006-01-02 15:04:05.999999999"),
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m.Seconds(), lat, lng, m.Km(), m.Speed())
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}
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// Realistic tests if the movement may have happened in the real world.
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func (m *Movement) Realistic() bool {
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speed := m.Speed()
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switch {
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case speed > 900:
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return false
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case speed > 200 && m.Seconds() < 60:
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return false
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default:
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return true
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}
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}
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// AverageAltitude returns the average altitude.
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func (m *Movement) AverageAltitude() float64 {
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if m.Start.Altitude != 0 && m.End.Altitude == 0 {
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return m.Start.Altitude
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} else if m.Start.Altitude == 0 && m.End.Altitude != 0 {
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return m.End.Altitude
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} else if m.Start.Altitude != 0 && m.End.Altitude != 0 {
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return (m.Start.Altitude + m.End.Altitude) / 2
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}
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return 0
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}
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// EstimateAccuracy returns the position estimate accuracy in meter.
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func (m *Movement) EstimateAccuracy(t time.Time) int {
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var a float64
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if !m.Realistic() {
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a = m.Meter() / 2
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} else if t.Before(m.Start.Time) {
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d := m.Start.Time.Sub(t).Hours() * 1000
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d = math.Copysign(math.Sqrt(math.Abs(d)), d)
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a = m.Speed() * d
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} else if t.After(m.End.Time) {
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d := t.Sub(m.End.Time).Hours() * 1000
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d = math.Copysign(math.Sqrt(math.Abs(d)), d)
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a = m.Speed() * d
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} else {
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a = m.Meter() / 20
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}
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if meter := math.Round(math.Abs(a)); meter > 5 {
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return int(meter)
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}
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return 5
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}
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// EstimateAltitude estimates the altitude at a given time.
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func (m *Movement) EstimateAltitude(t time.Time) float64 {
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if t.Before(m.Start.Time) {
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return m.Start.Altitude
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} else if t.After(m.End.Time) {
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return m.End.Altitude
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}
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return m.AverageAltitude()
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}
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// EstimateAltitudeInt returns the estimated altitude as integer.
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func (m *Movement) EstimateAltitudeInt(t time.Time) int {
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return int(math.Round(m.EstimateAltitude(t)))
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}
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// EstimatePosition returns the estimated position at a given time.
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func (m *Movement) EstimatePosition(t time.Time) Position {
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t = t.UTC()
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d := t.Sub(m.Start.Time)
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s := d.Seconds()
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estimate := Position{
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Name: "estimate",
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Time: t,
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Altitude: m.EstimateAltitude(t),
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Accuracy: m.EstimateAccuracy(t),
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}
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if !m.Realistic() {
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p := m.Midpoint()
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estimate.Lat = p.Lat
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estimate.Lng = p.Lng
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return estimate
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}
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if t.Before(m.Start.Time) || t.After(m.End.Time) {
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s = math.Copysign(math.Sqrt(math.Abs(s)), s)
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}
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latSec, lngSec := m.DegPerSecond()
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estimate.Lat = m.Start.Lat + latSec*s
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estimate.Lng = m.Start.Lng + lngSec*s
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return estimate
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}
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