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gitea/vendor/github.com/blevesearch/bleve/geo/geo.go

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// Copyright (c) 2017 Couchbase, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package geo
import (
"fmt"
"math"
"github.com/blevesearch/bleve/numeric"
)
// GeoBits is the number of bits used for a single geo point
// Currently this is 32bits for lon and 32bits for lat
var GeoBits uint = 32
var minLon = -180.0
var minLat = -90.0
var maxLon = 180.0
var maxLat = 90.0
var minLonRad = minLon * degreesToRadian
var minLatRad = minLat * degreesToRadian
var maxLonRad = maxLon * degreesToRadian
var maxLatRad = maxLat * degreesToRadian
var geoTolerance = 1E-6
var lonScale = float64((uint64(0x1)<<GeoBits)-1) / 360.0
var latScale = float64((uint64(0x1)<<GeoBits)-1) / 180.0
// MortonHash computes the morton hash value for the provided geo point
// This point is ordered as lon, lat.
func MortonHash(lon, lat float64) uint64 {
return numeric.Interleave(scaleLon(lon), scaleLat(lat))
}
func scaleLon(lon float64) uint64 {
rv := uint64((lon - minLon) * lonScale)
return rv
}
func scaleLat(lat float64) uint64 {
rv := uint64((lat - minLat) * latScale)
return rv
}
// MortonUnhashLon extracts the longitude value from the provided morton hash.
func MortonUnhashLon(hash uint64) float64 {
return unscaleLon(numeric.Deinterleave(hash))
}
// MortonUnhashLat extracts the latitude value from the provided morton hash.
func MortonUnhashLat(hash uint64) float64 {
return unscaleLat(numeric.Deinterleave(hash >> 1))
}
func unscaleLon(lon uint64) float64 {
return (float64(lon) / lonScale) + minLon
}
func unscaleLat(lat uint64) float64 {
return (float64(lat) / latScale) + minLat
}
// compareGeo will compare two float values and see if they are the same
// taking into consideration a known geo tolerance.
func compareGeo(a, b float64) float64 {
compare := a - b
if math.Abs(compare) <= geoTolerance {
return 0
}
return compare
}
// RectIntersects checks whether rectangles a and b intersect
func RectIntersects(aMinX, aMinY, aMaxX, aMaxY, bMinX, bMinY, bMaxX, bMaxY float64) bool {
return !(aMaxX < bMinX || aMinX > bMaxX || aMaxY < bMinY || aMinY > bMaxY)
}
// RectWithin checks whether box a is within box b
func RectWithin(aMinX, aMinY, aMaxX, aMaxY, bMinX, bMinY, bMaxX, bMaxY float64) bool {
rv := !(aMinX < bMinX || aMinY < bMinY || aMaxX > bMaxX || aMaxY > bMaxY)
return rv
}
// BoundingBoxContains checks whether the lon/lat point is within the box
func BoundingBoxContains(lon, lat, minLon, minLat, maxLon, maxLat float64) bool {
return compareGeo(lon, minLon) >= 0 && compareGeo(lon, maxLon) <= 0 &&
compareGeo(lat, minLat) >= 0 && compareGeo(lat, maxLat) <= 0
}
const degreesToRadian = math.Pi / 180
const radiansToDegrees = 180 / math.Pi
// DegreesToRadians converts an angle in degrees to radians
func DegreesToRadians(d float64) float64 {
return d * degreesToRadian
}
// RadiansToDegrees converts an angle in radians to degress
func RadiansToDegrees(r float64) float64 {
return r * radiansToDegrees
}
var earthMeanRadiusMeters = 6371008.7714
func RectFromPointDistance(lon, lat, dist float64) (float64, float64, float64, float64, error) {
err := checkLongitude(lon)
if err != nil {
return 0, 0, 0, 0, err
}
err = checkLatitude(lat)
if err != nil {
return 0, 0, 0, 0, err
}
radLon := DegreesToRadians(lon)
radLat := DegreesToRadians(lat)
radDistance := (dist + 7e-2) / earthMeanRadiusMeters
minLatL := radLat - radDistance
maxLatL := radLat + radDistance
var minLonL, maxLonL float64
if minLatL > minLatRad && maxLatL < maxLatRad {
deltaLon := asin(sin(radDistance) / cos(radLat))
minLonL = radLon - deltaLon
if minLonL < minLonRad {
minLonL += 2 * math.Pi
}
maxLonL = radLon + deltaLon
if maxLonL > maxLonRad {
maxLonL -= 2 * math.Pi
}
} else {
// pole is inside distance
minLatL = math.Max(minLatL, minLatRad)
maxLatL = math.Min(maxLatL, maxLatRad)
minLonL = minLonRad
maxLonL = maxLonRad
}
return RadiansToDegrees(minLonL),
RadiansToDegrees(maxLatL),
RadiansToDegrees(maxLonL),
RadiansToDegrees(minLatL),
nil
}
func checkLatitude(latitude float64) error {
if math.IsNaN(latitude) || latitude < minLat || latitude > maxLat {
return fmt.Errorf("invalid latitude %f; must be between %f and %f", latitude, minLat, maxLat)
}
return nil
}
func checkLongitude(longitude float64) error {
if math.IsNaN(longitude) || longitude < minLon || longitude > maxLon {
return fmt.Errorf("invalid longitude %f; must be between %f and %f", longitude, minLon, maxLon)
}
return nil
}