module Haversine
Overview
The haversine formula determines the great-circle distance between two points on a sphere given their latitudes and longitudes.
https://en.wikipedia.org/wiki/Haversine_formula
Extended Modules
Defined in:
haversine.crhaversine/distance.cr
haversine/version.cr
Constant Summary
-
EARTH_RADIUS =
6371008.8
-
FACTORS =
{centimeters: EARTH_RADIUS * 100, centimetres: EARTH_RADIUS * 100, degrees: 360 / (2 * Math::PI), feet: EARTH_RADIUS * 3.28084, inches: EARTH_RADIUS * 39.37, kilometers: EARTH_RADIUS / 1000, kilometres: EARTH_RADIUS / 1000, meters: EARTH_RADIUS, metres: EARTH_RADIUS, miles: EARTH_RADIUS / 1609.344, millimeters: EARTH_RADIUS * 1000, millimetres: EARTH_RADIUS * 1000, nautical_miles: EARTH_RADIUS / 1852, radians: 1, yards: EARTH_RADIUS * 1.0936}
-
Unit of measurement factors using a spherical (non-ellipsoid) earth radius.
Keys are the name of the unit, values are the number of that unit in a single radians
-
VERSION =
{{ (`shards version /srv/crystaldoc.info/github-mamantoha-haversine-v0.5.0/src/haversine`).chomp.stringify }}
Instance Method Summary
-
#destination(latitude : Number, longitude : Number, distance : Number, bearing : Number, unit : Symbol = :kilometers) : Tuple(Float64, Float64)
Takes the staring point by
latitude
,longitude
and calculates the location of a destination point given a#distance
factor inHaversine::FACTORS
; andbearing
in degrees(ranging from -180 to 180). -
#destination(coord : Array(Number), distance : Number, bearing : Number, unit : Symbol = :kilometers) : Tuple(Float64, Float64)
Takes the staring point by
latitude
,longitude
and calculates the location of a destination point given a#distance
factor inHaversine::FACTORS
; andbearing
in degrees(ranging from -180 to 180). -
#destination(coord : Tuple(Number, Number), distance : Number, bearing : Number, unit : Symbol = :kilometers) : Tuple(Float64, Float64)
Takes the staring point by
latitude
,longitude
and calculates the location of a destination point given a#distance
factor inHaversine::FACTORS
; andbearing
in degrees(ranging from -180 to 180). -
#distance(lat1 : Number, lon1 : Number, lat2 : Number, lon2 : Number) : Haversine::Distance
Calculates the haversine distance between two locations using latitude and longitude.
-
#distance(coord1 : Array(Number), coord2 : Array(Number)) : Haversine::Distance
Calculates the haversine distance between two locations using latitude and longitude.
-
#distance(coord1 : Tuple(Number, Number), coord2 : Tuple(Number, Number)) : Haversine::Distance
Calculates the haversine distance between two locations using latitude and longitude.
Instance Method Detail
Takes the staring point by latitude
, longitude
and calculates the location of a destination point
given a #distance
factor in Haversine::FACTORS
; and bearing
in degrees(ranging from -180 to 180).
https://github.com/Turfjs/turf/blob/master/packages/turf-destination/index.ts
Takes the staring point by latitude
, longitude
and calculates the location of a destination point
given a #distance
factor in Haversine::FACTORS
; and bearing
in degrees(ranging from -180 to 180).
https://github.com/Turfjs/turf/blob/master/packages/turf-destination/index.ts
Takes the staring point by latitude
, longitude
and calculates the location of a destination point
given a #distance
factor in Haversine::FACTORS
; and bearing
in degrees(ranging from -180 to 180).
https://github.com/Turfjs/turf/blob/master/packages/turf-destination/index.ts
Calculates the haversine distance between two locations using latitude and longitude.
Calculates the haversine distance between two locations using latitude and longitude.