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The
MGLAnnotation
protocol is used to provide annotation-related information to a map view. To use this protocol, you adopt it in any custom objects that store or represent annotation data. Each object then serves as the source of information about a single map annotation and provides critical information, such as the annotation’s location on the map. Annotation objects do not provide the visual representation of the annotation but typically coordinate (in conjunction with the map view’s delegate) the creation of an appropriate objects to handle the display.An object that adopts this protocol must implement the
coordinate
property. The other methods of this protocol are optional.Related examples
See the Annotation models and Annotation views examples to learn how to add objects that follow the
See moreMGLAnnotation
protocol.Declaration
Objective-C
@protocol MGLAnnotation <NSObject>
Swift
protocol MGLAnnotation : NSObjectProtocol
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The
MGLOverlay
protocol defines a specific type of annotation that represents both a point and an area on a map. Overlay objects are essentially data objects that contain the geographic data needed to represent the map area. Overlays can take the form of a polyline or polygon.You use overlays to layer more sophisticated content on top of a map view. For example, you could use an overlay to show the boundaries of a national park or trace a bus route along city streets. This SDK defines several concrete classes that conform to this protocol and define standard shapes.
See moreDeclaration
Objective-C
@protocol MGLOverlay <MGLAnnotation>
Swift
protocol MGLOverlay : MGLAnnotation
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MGLShape
is an abstract class that represents a shape or annotation. Shapes constitute the content of a map — not only the overlays atop the map, but also the content that forms the base map.Create instances of
MGLPointAnnotation
,MGLPointCollection
,MGLPolyline
,MGLMultiPolyline
,MGLPolygon
,MGLMultiPolygon
, orMGLShapeCollection
in order to useMGLShape
‘s methods. Do not create instances ofMGLShape
directly, and do not create your own subclasses of this class. The shape classes correspond to the Geometry object types in the GeoJSON standard, but some have nonstandard names for backwards compatibility.Although you do not create instances of this class directly, you can use its
+[MGLShape shapeWithData:encoding:error:]
factory method to create one of the concrete subclasses ofMGLShape
noted above from GeoJSON data. To access a shape’s attributes, use the correspondingMGLFeature
class instead.You can add shapes to the map by adding them to an
MGLShapeSource
object. Configure the appearance of anMGLShapeSource
’s orMGLVectorTileSource
’s shapes collectively using a concrete instance ofMGLVectorStyleLayer
. Alternatively, you can add some kinds of shapes directly to a map view as annotations or overlays.You can filter the features in a
See moreMGLVectorStyleLayer
or vary their layout or paint attributes based on the features’ geographies. Pass anMGLShape
into anNSPredicate
with the formatSELF IN %@
or%@ CONTAINS SELF
and set theMGLVectorStyleLayer.predicate
property to that predicate, or set a layout or paint attribute to a similarly formattedNSExpression
.Declaration
Objective-C
@interface MGLShape : NSObject <MGLAnnotation, NSSecureCoding>
Swift
class MGLShape : NSObject, MGLAnnotation, NSSecureCoding
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The
MGLMultiPoint
class is an abstract superclass used to define shapes composed of multiple vertices.Create instances of
MGLPolyline
orMGLPolygon
in order to use properties ofMGLMultiPoint
. Do not create instances ofMGLMultiPoint
directly and do not create your own subclasses of this class. You can use the method and properties of this class to access information about the vertices of the line or polygon.Do not confuse
See moreMGLMultiPoint
withMGLPointCollection
, which represents a collection of related but disconnected points. -
An
MGLPointAnnotation
object represents a one-dimensional shape located at a single geographical coordinate. Depending on how it is used, anMGLPointAnnotation
object is known as a point annotation or point shape. For example, you could use a point shape to represent a city at low zoom levels, an address at high zoom levels, or the location of a long press gesture.You can add point shapes to the map by adding them to an
MGLShapeSource
object. Configure the appearance of anMGLShapeSource
’s orMGLVectorTileSource
’s point shapes collectively using anMGLCircleStyleLayer
orMGLSymbolStyleLayer
object.For more interactivity, add a selectable point annotation to a map view using the
-[MGLMapView addAnnotation:]
method. Alternatively, define your own model class that conforms to theMGLAnnotation
protocol. Configure a point annotation’s appearance using-[MGLMapViewDelegate mapView:imageForAnnotation:]
or-[MGLMapViewDelegate mapView:viewForAnnotation:]
(iOS only). A point annotation’sMGLShape.title
andMGLShape.subtitle
properties define the default content of the annotation’s callout (on iOS) or popover (on macOS).To group multiple related points together in one shape, use an
MGLPointCollection
orMGLShapeCollection
object. To access a point’s attributes, use anMGLPointFeature
object.A point shape is known as a Point geometry in GeoJSON.
Related examples
See the Mark a place on the map with an annotation, Mark a place on the map with an image, and Default callout usage examples to learn how to add
See moreMGLPointAnnotation
objects to your map. -
An
MGLPointCollection
object represents a shape consisting of one or more disconnected vertices, specified asCLLocationCoordinate2D
instances. The points in the collection may be related but are not connected spatially. For example, you could use a point collection to represent all the trees in an orchard.You can add point collections to the map by adding them to an
MGLShapeSource
object. Configure the appearance of anMGLShapeSource
’s orMGLVectorTileSource
’s point collections collectively using anMGLCircleStyleLayer
orMGLSymbolStyleLayer
object. To access a point collection’s attributes, use anMGLPointCollectionFeature
object.You cannot add an
MGLPointCollection
object directly to a map view as an annotation. However, you can create individualMGLPointAnnotation
objects from thecoordinates
array and add those annotation objects to the map view using the-[MGLMapView addAnnotations:]
method.A point collection is known as a MultiPoint geometry in GeoJSON. Do not confuse
See moreMGLPointCollection
withMGLMultiPoint
, the abstract superclass ofMGLPolyline
andMGLPolygon
.Declaration
Objective-C
@interface MGLPointCollection : MGLShape <MGLOverlay>
Swift
class MGLPointCollection : MGLShape, MGLOverlay
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An
MGLPolygon
object represents a closed shape consisting of four or more vertices, specified asCLLocationCoordinate2D
instances, and the edges that connect them. For example, you could use a polygon shape to represent a building, a lake, or an area you want to highlight.You can add polygon shapes to the map by adding them to an
MGLShapeSource
object. Configure the appearance of anMGLShapeSource
’s orMGLVectorTileSource
’s polygons collectively using anMGLFillStyleLayer
orMGLSymbolStyleLayer
object. To access a polygon’s attributes, use anMGLPolygonFeature
object.Alternatively, you can add a polygon overlay directly to a map view using the
-[MGLMapView addAnnotation:]
or-[MGLMapView addOverlay:]
method. Configure a polygon overlay’s appearance using-[MGLMapViewDelegate mapView:strokeColorForShapeAnnotation:]
and-[MGLMapViewDelegate mapView:fillColorForPolygonAnnotation:]
.The vertices are automatically connected in the order in which you provide them. You should close the polygon by specifying the same
CLLocationCoordinate2D
as the first and last vertices; otherwise, the polygon’s fill may not cover the area you expect it to. To avoid filling the space within the shape, give the polygon a transparent fill or use anMGLPolyline
object.A polygon may have one or more interior polygons, or holes, that you specify as
MGLPolygon
objects with the+polygonWithCoordinates:count:interiorPolygons:
method. For example, if a polygon represents a lake, it could exclude an island within the lake using an interior polygon. Interior polygons may not themselves have interior polygons. To represent a shape that includes a polygon within a hole or, more generally, to group multiple polygons together in one shape, use anMGLMultiPolygon
orMGLShapeCollection
object.To make the polygon straddle the antimeridian, specify some longitudes less than −180 degrees or greater than 180 degrees.
Related examples
See the Add a polygon annotation example to learn how to initialize an
See moreMGLPolygon
object from an array of coordinates.Declaration
Objective-C
@interface MGLPolygon : MGLMultiPoint <MGLOverlay>
Swift
class MGLPolygon : MGLMultiPoint, MGLOverlay
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An
MGLPolyline
object represents a shape consisting of two or more vertices, specified asCLLocationCoordinate2D
instances, and the line segments that connect them. For example, you could use an polyline to represent a road or the path along which something moves.You can add polyline shapes to the map by adding them to an
MGLShapeSource
object. Configure the appearance of anMGLShapeSource
’s orMGLVectorTileSource
’s polylines collectively using anMGLLineStyleLayer
orMGLSymbolStyleLayer
object. To access a polyline’s attributes, use anMGLPolylineFeature
object.Alternatively, you can add a polyline overlay directly to a map view using the
-[MGLMapView addAnnotation:]
or-[MGLMapView addOverlay:]
method. Configure a polyline overlay’s appearance using-[MGLMapViewDelegate mapView:strokeColorForShapeAnnotation:]
and-[MGLMapViewDelegate mapView:lineWidthForPolylineAnnotation:]
.The vertices are automatically connected in the order in which you provide them. The first and last vertices are not connected to each other, but you can specify the same
CLLocationCoordinate2D
as the first and last vertices in order to close the polyline. To fill the space within the shape, use anMGLPolygon
object. To group multiple polylines together in one shape, use anMGLMultiPolyline
orMGLShapeCollection
object.To make the polyline go across the antimeridian or international date line, specify some longitudes less than −180 degrees or greater than 180 degrees. For example, a polyline that stretches from Tokyo to San Francisco would have coordinates of (35.68476, -220.24257) and (37.78428, -122.41310).
let coordinates = [ CLLocationCoordinate2D(latitude: 35.68476, longitude: -220.24257), CLLocationCoordinate2D(latitude: 37.78428, longitude: -122.41310) ] let polyline = MGLPolyline(coordinates: coordinates, count: UInt(coordinates.count))
A polyline is known as a LineString geometry in GeoJSON.
Related examples
See the Annotation models example to learn how to add an
See moreMGLPolyine
object to your map.Declaration
Objective-C
@interface MGLPolyline : MGLMultiPoint <MGLOverlay>
Swift
class MGLPolyline : MGLMultiPoint, MGLOverlay
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An
MGLMultiPolygon
object represents a shape consisting of one or more polygons that do not overlap. For example, you could use a multipolygon shape to represent the body of land that consists of an island surrounded by an atoll: the inner island would be oneMGLPolygon
object, while the surrounding atoll would be another. You could also use a multipolygon shape to represent a group of disconnected but related buildings.You can add multipolygon shapes to the map by adding them to an
MGLShapeSource
object. Configure the appearance of anMGLShapeSource
’s orMGLVectorTileSource
’s multipolygons collectively using anMGLFillStyleLayer
orMGLSymbolStyleLayer
object.You cannot add an
See moreMGLMultiPolygon
object directly to a map view using-[MGLMapView addAnnotation:]
or-[MGLMapView addOverlay:]
. However, you can add thepolygons
array’s items as overlays individually.Declaration
Objective-C
@interface MGLMultiPolygon : MGLShape <MGLOverlay>
Swift
class MGLMultiPolygon : MGLShape, MGLOverlay
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An
MGLMultiPolyline
object represents a shape consisting of one or more polylines. For example, you could use a multipolyline shape to represent both sides of a divided highway (dual carriageway), excluding the median (central reservation): each carriageway would be a distinctMGLPolyline
object.You can add multipolyline shapes to the map by adding them to an
MGLShapeSource
object. Configure the appearance of anMGLShapeSource
’s orMGLVectorTileSource
’s multipolylines collectively using anMGLLineStyleLayer
orMGLSymbolStyleLayer
object.You cannot add an
MGLMultiPolyline
object directly to a map view using-[MGLMapView addAnnotation:]
or-[MGLMapView addOverlay:]
. However, you can add thepolylines
array’s items as overlays individually.A multipolyline is known as a MultiLineString geometry in GeoJSON.
See moreDeclaration
Objective-C
@interface MGLMultiPolyline : MGLShape <MGLOverlay>
Swift
class MGLMultiPolyline : MGLShape, MGLOverlay
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An
MGLShapeCollection
object represents a shape consisting of zero or more distinct but related shapes that are instances ofMGLShape
. The constituent shapes can be a mixture of different kinds of shapes.MGLShapeCollection
is most commonly used to add multiple shapes to a singleMGLShapeSource
. Configure the appearance of anMGLShapeSource
’s orMGLVectorTileSource
’s shape collection collectively using anMGLSymbolStyleLayer
object, or use multiple instances ofMGLCircleStyleLayer
,MGLFillStyleLayer
, andMGLLineStyleLayer
to configure the appearance of each kind of shape inside the collection.You cannot add an
MGLShapeCollection
object directly to a map view as an annotation. However, you can create individualMGLPointAnnotation
,MGLPolyline
, andMGLPolygon
objects from theshapes
array and add those annotation objects to the map view using the-[MGLMapView addAnnotations:]
method.To represent a collection of point, polyline, or polygon shapes, it may be more convenient to use an
MGLPointCollection
,MGLMultiPolyline
, orMGLMultiPolygon
object, respectively. To access a shape collection’s attributes, use the correspondingMGLFeature
object.A shape collection is known as a GeometryCollection geometry in GeoJSON.
See more