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@turf/helpers
Advanced tools
The @turf/helpers package is part of the Turf.js library, which is a modular geospatial engine written in JavaScript. It provides functions to create various simple geometrical features such as points, lines, and polygons, and to manipulate these geometries in various ways. This package is particularly useful for developers working with geographic information systems (GIS) and spatial analysis in web applications.
Creating Points
This function creates a GeoJSON Point feature using the provided coordinates. It is useful for representing locations on a map.
const point = turf.point([5, 10]);
Creating LineStrings
This function creates a GeoJSON LineString feature from an array of positions. It is useful for mapping routes or paths.
const line = turf.lineString([[5, 10], [20, 40]]);
Creating Polygons
This function creates a GeoJSON Polygon feature from an array of linear rings. It is used to represent areas such as city boundaries or lakes.
const polygon = turf.polygon([[[5, 10], [20, 40], [40, 0], [5, 10]]]);
Leaflet is a leading open-source JavaScript library for mobile-friendly interactive maps. While Leaflet itself focuses more on map interactions and overlays, it can be used in conjunction with other tools for creating and manipulating geographic data, similar to @turf/helpers.
OpenLayers is another powerful open-source JavaScript library that handles various map-related tasks. It provides more comprehensive features for handling complex spatial operations compared to @turf/helpers, which is more focused on creating and manipulating simple geometrical features.
Earth Radius used with the Harvesine formula and approximates using a spherical (non-ellipsoid) Earth.
Type: number
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 radian
Type: Object
Area of measurement factors based on 1 square meter.
Type: Object
Wraps a GeoJSON Geometry in a GeoJSON Feature.
geometry
Geometry input geometry
properties
Object an Object of key-value pairs to add as properties (optional, default {}
)
options
Object Optional Parameters (optional, default {}
)
var geometry = {
"type": "Point",
"coordinates": [110, 50]
};
var feature = turf.feature(geometry);
//=feature
Returns Feature a GeoJSON Feature
Creates a GeoJSON Geometry from a Geometry string type & coordinates.
For GeometryCollection type use helpers.geometryCollection
type
string Geometry Typecoordinates
Array<any> Coordinatesoptions
Object Optional Parameters (optional, default {}
)var type = "Point";
var coordinates = [110, 50];
var geometry = turf.geometry(type, coordinates);
// => geometry
Returns Geometry a GeoJSON Geometry
Creates a Point Feature from a Position.
coordinates
Array<number> longitude, latitude position (each in decimal degrees)
properties
Object an Object of key-value pairs to add as properties (optional, default {}
)
options
Object Optional Parameters (optional, default {}
)
var point = turf.point([-75.343, 39.984]);
//=point
Returns Feature<Point> a Point feature
Creates a Point FeatureCollection from an Array of Point coordinates.
properties
Object Translate these properties to each Feature (optional, default {}
)
options
Object Optional Parameters (optional, default {}
)
var points = turf.points([
[-75, 39],
[-80, 45],
[-78, 50]
]);
//=points
Returns FeatureCollection<Point> Point Feature
Creates a Polygon Feature from an Array of LinearRings.
coordinates
Array<Array<Array<number>>> an array of LinearRings
properties
Object an Object of key-value pairs to add as properties (optional, default {}
)
options
Object Optional Parameters (optional, default {}
)
var polygon = turf.polygon([[[-5, 52], [-4, 56], [-2, 51], [-7, 54], [-5, 52]]], { name: 'poly1' });
//=polygon
Returns Feature<Polygon> Polygon Feature
Creates a Polygon FeatureCollection from an Array of Polygon coordinates.
coordinates
Array<Array<Array<Array<number>>>> an array of Polygon coordinates
properties
Object an Object of key-value pairs to add as properties (optional, default {}
)
options
Object Optional Parameters (optional, default {}
)
var polygons = turf.polygons([
[[[-5, 52], [-4, 56], [-2, 51], [-7, 54], [-5, 52]]],
[[[-15, 42], [-14, 46], [-12, 41], [-17, 44], [-15, 42]]],
]);
//=polygons
Returns FeatureCollection<Polygon> Polygon FeatureCollection
Creates a LineString Feature from an Array of Positions.
properties
Object an Object of key-value pairs to add as properties (optional, default {}
)
options
Object Optional Parameters (optional, default {}
)
var linestring1 = turf.lineString([[-24, 63], [-23, 60], [-25, 65], [-20, 69]], {name: 'line 1'});
var linestring2 = turf.lineString([[-14, 43], [-13, 40], [-15, 45], [-10, 49]], {name: 'line 2'});
//=linestring1
//=linestring2
Returns Feature<LineString> LineString Feature
Creates a LineString FeatureCollection from an Array of LineString coordinates.
coordinates
Array<Array<Array<number>>> an array of LinearRings
properties
Object an Object of key-value pairs to add as properties (optional, default {}
)
options
Object Optional Parameters (optional, default {}
)
var linestrings = turf.lineStrings([
[[-24, 63], [-23, 60], [-25, 65], [-20, 69]],
[[-14, 43], [-13, 40], [-15, 45], [-10, 49]]
]);
//=linestrings
Returns FeatureCollection<LineString> LineString FeatureCollection
Takes one or more Features and creates a FeatureCollection.
options
Object Optional Parameters (optional, default {}
)
var locationA = turf.point([-75.343, 39.984], {name: 'Location A'});
var locationB = turf.point([-75.833, 39.284], {name: 'Location B'});
var locationC = turf.point([-75.534, 39.123], {name: 'Location C'});
var collection = turf.featureCollection([
locationA,
locationB,
locationC
]);
//=collection
Returns FeatureCollection FeatureCollection of Features
Creates a Feature<MultiLineString> based on a coordinate array. Properties can be added optionally.
coordinates
Array<Array<Array<number>>> an array of LineStrings
properties
Object an Object of key-value pairs to add as properties (optional, default {}
)
options
Object Optional Parameters (optional, default {}
)
var multiLine = turf.multiLineString([[[0,0],[10,10]]]);
//=multiLine
Returns Feature<MultiLineString> a MultiLineString feature
Creates a Feature<MultiPoint> based on a coordinate array. Properties can be added optionally.
properties
Object an Object of key-value pairs to add as properties (optional, default {}
)
options
Object Optional Parameters (optional, default {}
)
var multiPt = turf.multiPoint([[0,0],[10,10]]);
//=multiPt
Returns Feature<MultiPoint> a MultiPoint feature
Creates a Feature<MultiPolygon> based on a coordinate array. Properties can be added optionally.
coordinates
Array<Array<Array<Array<number>>>> an array of Polygons
properties
Object an Object of key-value pairs to add as properties (optional, default {}
)
options
Object Optional Parameters (optional, default {}
)
var multiPoly = turf.multiPolygon([[[[0,0],[0,10],[10,10],[10,0],[0,0]]]]);
//=multiPoly
Returns Feature<MultiPolygon> a multipolygon feature
Creates a Feature<GeometryCollection> based on a coordinate array. Properties can be added optionally.
properties
Object an Object of key-value pairs to add as properties (optional, default {}
)
options
Object Optional Parameters (optional, default {}
)
var pt = turf.geometry("Point", [100, 0]);
var line = turf.geometry("LineString", [[101, 0], [102, 1]]);
var collection = turf.geometryCollection([pt, line]);
// => collection
Returns Feature<GeometryCollection> a GeoJSON GeometryCollection Feature
Round number to precision
turf.round(120.4321)
//=120
turf.round(120.4321, 2)
//=120.43
Returns number rounded number
Convert a distance measurement (assuming a spherical Earth) from radians to a more friendly unit. Valid units: miles, nauticalmiles, inches, yards, meters, metres, kilometers, centimeters, feet
radians
number in radians across the sphereunits
string can be degrees, radians, miles, inches, yards, metres,
meters, kilometres, kilometers. (optional, default "kilometers"
)Returns number distance
Convert a distance measurement (assuming a spherical Earth) from a real-world unit into radians Valid units: miles, nauticalmiles, inches, yards, meters, metres, kilometers, centimeters, feet
distance
number in real unitsunits
string can be degrees, radians, miles, inches, yards, metres,
meters, kilometres, kilometers. (optional, default "kilometers"
)Returns number radians
Convert a distance measurement (assuming a spherical Earth) from a real-world unit into degrees Valid units: miles, nauticalmiles, inches, yards, meters, metres, centimeters, kilometres, feet
distance
number in real unitsunits
string can be degrees, radians, miles, inches, yards, metres,
meters, kilometres, kilometers. (optional, default "kilometers"
)Returns number degrees
Converts any bearing angle from the north line direction (positive clockwise) and returns an angle between 0-360 degrees (positive clockwise), 0 being the north line
bearing
number angle, between -180 and +180 degreesReturns number angle between 0 and 360 degrees
Converts an angle in radians to degrees
radians
number angle in radiansReturns number degrees between 0 and 360 degrees
Converts an angle in degrees to radians
degrees
number angle between 0 and 360 degreesReturns number angle in radians
Converts a length to the requested unit. Valid units: miles, nauticalmiles, inches, yards, meters, metres, kilometers, centimeters, feet
length
number to be convertedoriginalUnit
Units of the length (optional, default "kilometers"
)finalUnit
Units returned unit (optional, default "kilometers"
)Returns number the converted length
Converts a area to the requested unit. Valid units: kilometers, kilometres, meters, metres, centimetres, millimeters, acres, miles, yards, feet, inches, hectares
area
number to be convertedoriginalUnit
Units of the distance (optional, default "meters"
)finalUnit
Units returned unit (optional, default "kilometers"
)Returns number the converted area
isNumber
num
any Number to validateturf.isNumber(123)
//=true
turf.isNumber('foo')
//=false
Returns boolean true/false
isObject
input
any variable to validateturf.isObject({elevation: 10})
//=true
turf.isObject('foo')
//=false
Returns boolean true/false, including false for Arrays and Functions
This module is part of the Turfjs project, an open source module collection dedicated to geographic algorithms. It is maintained in the Turfjs/turf repository, where you can create PRs and issues.
Install this module individually:
$ npm install @turf/helpers
Or install the Turf module that includes it as a function:
$ npm install @turf/turf
FAQs
turf helpers module
The npm package @turf/helpers receives a total of 2,401,400 weekly downloads. As such, @turf/helpers popularity was classified as popular.
We found that @turf/helpers demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 9 open source maintainers collaborating on the project.
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