Easily handle a geographical object model (points, linestrings, polygons etc.) and related topographical operations (intersections, overlapping etc.).
A type-safe, MIT-licensed Swift interface to the OSGeo's GEOS library routines, nicely integrated with MapKit and Quicklook.
For MapboxGL integration visit: https://github.com/GEOSwift/GEOSwiftMapboxGL
- A pure-Swift, type-safe, optional-aware programming interface
- Automatically-typed geometry deserialization from WKT and WKB representations
- MapKit and MapboxGL integration
- Quicklook integration
- A lightweight GEOJSON parser
- Extensively tested
- iOS 8.0+ / Mac OS X 10.10+
- Xcode 9
- Swift 4 (For Swift 3 support use release 1.0.2 or earlier.)
- CocoaPods 1.0.1+
// 1. From Well Known Text (WKT) representation
let point = Waypoint(WKT: "POINT(10 45)")
let polygon = Geometry.create("POLYGON((35 10, 45 45.5, 15 40, 10 20, 35 10),(20 30, 35 35, 30 20, 20 30))")
// 2. From a Well Known Binary (WKB)
let WKB: NSData = geometryWKB()
let geometry2 = Geometry.create(WKB.bytes, size: WKB.length)
// 3. From a GeoJSON file:
if let geoJSONURL = NSBundle.mainBundle().URLForResource("italy", withExtension: "geojson"),
let geometries = Geometry.fromGeoJSON(geoJSONURL),
let italy = geometries[0] as? MultiPolygon
{
italy
}
GEOSwift makes it easy generate annotations to display on a mapview using Apple MapKit and MapboxGL.
On each Geometry instance you can call one of the related convenience func mapShape()
or mapboxShape()
, that will return an annotation object ready to be added as annotations to a MKMapView
(for MapKit) or MGLMapView
(for MapboxGL):
Example for MapKit:
let shape1 = point.mapShape() // will return a MKPointAnnotation
Example for MapboxGL:
For MapboxGL integration visit: https://github.com/GEOSwift/GEOSwiftMapboxGL
In this table you can find which annotation class you should expect when calling mapShape()
or mapboxShape()
on a geometry:
WKT Feature | GEOSwift class | MapKit | MapboxGL |
---|---|---|---|
POINT |
WayPoint |
MKPointAnnotation |
MGLPointAnnotation |
LINESTRING |
LineString |
MKPolyline |
MGLPolyline |
POLYGON |
Polygon |
MKPolygon |
MGLPolygon |
MULTIPOINT |
MultiPoint |
MKShapesCollection |
not supported |
MULTILINESTRING |
MultiLineString |
MKShapesCollection |
not supported |
MULTIPOLYGON |
MultiPolygon |
MKShapesCollection |
not supported |
GEOMETRYCOLLECTION |
GeometryCollection |
MKShapesCollection |
not supported |
Of course you should provide your implementation of the mapview delegate protocol (MKMapViewDelegate
or MGLMapViewDelegate
).
In MapKit, when dealing with geometry collections you have to define your own MKOverlayRenderer
subclass.
Currently geometry collections are not supported when using MapboxGL
.
Let's say we have two geometries:
GEOSwift let you perform a set of operations on these two geometries:
- equals: returns true if this geometric object is “spatially equal” to another geometry.
- disjoint: returns true if this geometric object is “spatially disjoint” from another geometry.
- intersects: returns true if this geometric object “spatially intersects” another geometry.
- touches: returns true if this geometric object “spatially touches” another geometry.
- crosses: returns true if this geometric object “spatially crosses’ another geometry.
- within: returns true if this geometric object is “spatially within” another geometry.
- contains: returns true if this geometric object “spatially contains” another geometry.
- overlaps: returns true if this geometric object “spatially overlaps” another geometry.
- relate: returns true if this geometric object is spatially related to another geometry by testing for intersections between the interior, boundary and exterior of the two geometric objects as specified by the values in the intersectionPatternMatrix.
Explore more, interactively, from the Xcode project’s playground. It can be found inside GEOSwift
workspace. Open the workspace on Xcode, build the GEOSwift
framework and open the playground file.
Embedded frameworks require a minimum deployment target of iOS 8 or OS X Mavericks. GEOS is a configure/install project licensed under LGPL 2.1: it is difficult to build for iOS and its compatibility with static linking is at least controversial. Use of GEOSwift without CocoaPods and with a project targeting iOS 7, even if possible, is advised against.
CocoaPods is a dependency manager for Cocoa projects. To install GEOSwift with CocoaPods:
-
Make sure CocoaPods is installed (GEOSwift requires version 0.39.0 or greater).
-
Update your
Podfile
to include the following:
use_frameworks!
pod 'GEOSwift'
- Run
pod install
.
NOTE: running pod install
may cause some errors if your machine does not have autoconf, automake and glibtool, if you encounter those errors you can run brew install autoconf automake libtool
to install those packages and run again pod install
.
Andrea Cremaschi (@andreacremaschi)
- GEOSwift was released by Andrea Cremaschi (@andreacremaschi) under a MIT license. See LICENSE for more information.
- GEOS stands for Geometry Engine - Open Source, and is a C++ library, ported from the Java Topology Suite. GEOS implements the OpenGIS Simple Features for SQL spatial predicate functions and spatial operators. GEOS, now an OSGeo project, was initially developed and maintained by Refractions Research of Victoria, Canada.