MGLMapView

Initializes and returns a newly allocated map view with the specified frame and the default style.

Initializes and returns a newly allocated map view with the specified frame and style URL.

The receiver’s delegate.

A map view sends messages to its delegate to notify it of changes to its contents or the viewpoint. The delegate also provides information about annotations displayed on the map, such as the styles to apply to individual annotations.

The style currently displayed in the receiver.

Unlike the styleURL property, this property is set to an object that allows you to manipulate every aspect of the style locally.

If the style is loading, this property is set to nil until the style finishes loading. If the style has failed to load, this property is set to nil. Because the style loads asynchronously, you should manipulate it in the -[MGLMapViewDelegate mapView:didFinishLoadingStyle:] or -[MGLMapViewDelegate mapViewDidFinishLoadingMap:] method. It is not possible to manipulate the style before it has finished loading.

URL of the style currently displayed in the receiver.

The URL may be a full HTTP or HTTPS URL, a Mapbox URL indicating the style’s map ID (mapbox://styles/<user>/<style>), or a path to a local file relative to the application’s resource path.

If you set this property to nil, the receiver will use the default style and this property will automatically be set to that style’s URL.

If you want to modify the current style without replacing it outright, or if you want to introspect individual style attributes, use the style property.

Reloads the style.

You do not normally need to call this method. The map view automatically responds to changes in network connectivity by reloading the style. You may need to call this method if you change the access token after a style has loaded but before loading a style associated with a different Mapbox account.

A control for zooming in and out, positioned in the lower-right corner.

A control indicating the map’s direction and allowing the user to manipulate the direction, positioned above the zoom controls in the lower-right corner.

The Mapbox logo, positioned in the lower-left corner.

A view showing legally required copyright notices, positioned along the bottom of the map view, to the left of the Mapbox logo.

The geographic coordinate at the center of the map view.

Changing the value of this property centers the map on the new coordinate without changing the current zoom level.

Changing the value of this property updates the map view immediately. If you want to animate the change, use the -setCenterCoordinate:animated: method instead.

Changes the center coordinate of the map and optionally animates the change.

Changing the center coordinate centers the map on the new coordinate without changing the current zoom level.

The zoom level of the receiver.

In addition to affecting the visual size and detail of features on the map, the zoom level affects the size of the vector tiles that are loaded. At zoom level 0, each tile covers the entire world map; at zoom level 1, it covers ¼ of the world; at zoom level 2, ¹⁄₁₆ of the world, and so on.

Changing the value of this property updates the map view immediately. If you want to animate the change, use the -setZoomLevel:animated: method instead.

The minimum zoom level at which the map can be shown.

Depending on the map view’s aspect ratio, the map view may be prevented from reaching the minimum zoom level, in order to keep the map from repeating within the current viewport.

If the value of this property is greater than that of the maximumZoomLevel property, the behavior is undefined.

The default value of this property is 0.

The maximum zoom level the map can be shown at.

If the value of this property is smaller than that of the minimumZoomLevel property, the behavior is undefined.

The default value of this property is 22. The upper bound for this property is 25.5.

Changes the zoom level of the map and optionally animates the change.

Changing the zoom level scales the map without changing the current center coordinate.

The heading of the map, measured in degrees clockwise from true north.

The value 0 means that the top edge of the map view corresponds to true north. The value 90 means the top of the map is pointing due east. The value 180 means the top of the map points due south, and so on.

Changing the value of this property updates the map view immediately. If you want to animate the change, use the -setDirection:animated: method instead.

Changes the heading of the map and optionally animates the change.

Changing the heading rotates the map without changing the current center coordinate or zoom level.

A camera representing the current viewpoint of the map.

Moves the viewpoint to a different location with respect to the map with an optional transition animation.

Moves the viewpoint to a different location with respect to the map with an optional transition duration and timing function.

Moves the viewpoint to a different location with respect to the map with an optional transition duration and timing function.

Moves the viewpoint to a different location using a transition animation that evokes powered flight and a default duration based on the length of the flight path.

The transition animation seamlessly incorporates zooming and panning to help the user find his or her bearings even after traversing a great distance.

Moves the viewpoint to a different location using a transition animation that evokes powered flight and an optional transition duration.

The transition animation seamlessly incorporates zooming and panning to help the user find his or her bearings even after traversing a great distance.

Moves the viewpoint to a different location using a transition animation that evokes powered flight and an optional transition duration and peak altitude.

The transition animation seamlessly incorporates zooming and panning to help the user find his or her bearings even after traversing a great distance.

The geographic coordinate bounds visible in the receiver’s viewport.

Changing the value of this property updates the receiver immediately. If you want to animate the change, use the -setVisibleCoordinateBounds:animated: method instead.

If a longitude is less than −180 degrees or greater than 180 degrees, the visible bounds straddles the antimeridian or international date line. For example, if both Tokyo and San Francisco are visible, the visible bounds might extend from (35.68476, −220.24257) to (37.78428, −122.41310).

Changes the receiver’s viewport to fit the given coordinate bounds, optionally animating the change.

To bring both sides of the antimeridian or international date line into view, specify some longitudes less than −180 degrees or greater than 180 degrees. For example, to show both Tokyo and San Francisco simultaneously, you could set the visible bounds to extend from (35.68476, −220.24257) to (37.78428, −122.41310).

Changes the receiver’s viewport to fit the given coordinate bounds and optionally some additional padding on each side.

Sets the visible region so that the map displays the specified annotations.

Calling this method updates the value in the visibleCoordinateBounds property and potentially other properties to reflect the new map region. A small amount of padding is reserved around the edges of the map view. To specify a different amount of padding, use the -showAnnotations:edgePadding:animated: method.

Sets the visible region so that the map displays the specified annotations with the specified amount of padding on each side.

Calling this method updates the value in the visibleCoordinateBounds property and potentially other properties to reflect the new map region.

Returns the camera that best fits the given coordinate bounds.

Returns the camera that best fits the given coordinate bounds, optionally with some additional padding on each side.

Returns the camera that best fits the given coordinate bounds, with the specified camera, optionally with some additional padding on each side.

Returns the camera that best fits the given shape, with the specified camera, optionally with some additional padding on each side.

Returns the camera that best fits the given shape, with the specified direction, optionally with some additional padding on each side.

A Boolean value indicating whether the receiver automatically adjusts its content insets.

When the value of this property is YES, the map view automatically updates its contentInsets property to account for any overlapping title bar or toolbar. To overlap with the title bar or toolbar, the containing window’s style mask must have NSFullSizeContentViewWindowMask set, and the title bar must not be transparent.

The default value of this property is YES.

The distance from the edges of the map view’s frame to the edges of the map view’s logical viewport.

When the value of this property is equal to NSEdgeInsetsZero, viewport properties such as centerCoordinate assume a viewport that matches the map view’s frame. Otherwise, those properties are inset, excluding part of the frame from the viewport. For instance, if the only the top edge is inset, the map center is effectively shifted downward.

When the value of the automaticallyAdjustsContentInsets property is YES, the value of this property may be overridden at any time.

Changing the value of this property updates the map view immediately. If you want to animate the change, use the -setContentInsets:animated: method instead.

Sets the distance from the edges of the map view’s frame to the edges of the map view’s logical viewport, with an optional transition animation.

When the value of this property is equal to NSEdgeInsetsZero, viewport properties such as centerCoordinate assume a viewport that matches the map view’s frame. Otherwise, those properties are inset, excluding part of the frame from the viewport. For instance, if the only the top edge is inset, the map center is effectively shifted downward.

When the value of the automaticallyAdjustsContentInsets property is YES, the value of this property may be overridden at any time.

A Boolean value that determines whether the user may zoom the map in and out, changing the zoom level.

When this property is set to YES, the default, the user may zoom the map in and out by pinching two fingers, by using a scroll wheel on a traditional mouse, or by dragging the mouse cursor up and down while holding down the Shift key. When the receiver has focus, the user may also zoom by pressing the up and down arrow keys while holding down the Option key.

This property controls only user interactions with the map. If you set the value of this property to NO, you may still change the map zoom programmatically.

A Boolean value that determines whether the user may scroll around the map, changing the center coordinate.

When this property is set to YES, the default, the user may scroll the map by swiping with two fingers or dragging the mouse cursor. When the receiver has focus, the user may also scroll around the map by pressing the arrow keys.

This property controls only user interactions with the map. If you set the value of this property to NO, you may still change the map location programmatically.

A Boolean value that determines whether the user may rotate the map, changing the direction.

When this property is set to YES, the default, the user may rotate the map by moving two fingers in a circular motion or by dragging the mouse cursor left and right while holding down the Option key. When the receiver has focus, the user may also zoom by pressing the left and right arrow keys while holding down the Option key.

This property controls only user interactions with the map. If you set the value of this property to NO, you may still rotate the map programmatically.

A Boolean value that determines whether the user may tilt of the map, changing the pitch.

When this property is set to YES, the default, the user may rotate the map by dragging the mouse cursor up and down while holding down the Option key.

This property controls only user interactions with the map. If you set the value of this property to NO, you may still change the pitch of the map programmatically.

The complete list of annotations associated with the receiver. (read-only)

The objects in this array must adopt the MGLAnnotation protocol. If no annotations are associated with the map view, the value of this property is nil.

Adds an annotation to the map view.

Adds an array of annotations to the map view.

The complete list of annotations associated with the receiver that are currently visible.

The objects in this array must adopt the MGLAnnotation protocol. If no annotations are associated with the map view or if no annotations associated with the map view are currently visible, the value of this property is nil.

Removes an annotation from the map view, deselecting it if it is selected.

Removing an annotation object dissociates it from the map view entirely, preventing it from being displayed on the map. Thus you would typically call this method only when you want to hide or delete a given annotation.

Removes an array of annotations from the map view, deselecting any selected annotations in the array.

Removing annotation objects dissociates them from the map view entirely, preventing them from being displayed on the map. Thus you would typically call this method only when you want to hide or delete the given annotations.

Returns a reusable annotation image object associated with its identifier.

For performance reasons, you should generally reuse MGLAnnotationImage objects for identical-looking annotations in your map views. Dequeueing saves time and memory during performance-critical operations such as scrolling.

Returns the list of annotations associated with the receiver that intersect with the given rectangle.

The currently selected annotations.

Assigning a new array to this property selects only the first annotation in the array.

If the annotation is of type MGLPointAnnotation and is offscreen, the map is panned so that the annotation and its callout are brought just onscreen. The annotation is not centered within the viewport.

Selects an annotation and displays a callout popover for it.

If the annotation is of type MGLPointAnnotation and is offscreen, the map is panned so that the annotation and its callout are brought just onscreen. The annotation is not centered within the viewport.

Deselects an annotation and hides its callout popover.

A common view controller for managing a callout popover’s content view.

Like any instance of NSPopover, an annotation callout manages its contents with a view controller. The annotation object is the view controller’s represented object. This means that you can bind controls in the view controller’s content view to KVO-compliant properties of the annotation object, such as title and subtitle.

This property defines a common view controller that is used for every annotation’s callout view. If you set this property to nil, a default view controller will be used that manages a simple title label and subtitle label. If you need distinct view controllers for different annotations, the map view’s delegate should implement -mapView:calloutViewControllerForAnnotation: instead.

Returns a point annotation located at the given point.

The complete list of overlays associated with the receiver. (read-only)

The objects in this array must adopt the MGLOverlay protocol. If no overlays are associated with the map view, the value of this property is empty array.

Adds a single overlay to the map.

To remove an overlay from a map, use the -removeOverlay: method.

Adds an array of overlays to the map.

To remove multiple overlays from a map, use the -removeOverlays: method.

Removes a single overlay from the map.

If the specified overlay is not currently associated with the map view, this method does nothing.

Removes an array of overlays from the map.

If a given overlay object is not associated with the map view, it is ignored.

Returns an array of rendered map features that intersect with a given point.

This method may return features from any of the map’s style layers. To restrict the search to a particular layer or layers, use the -visibleFeaturesAtPoint:inStyleLayersWithIdentifiers: method. For more information about searching for map features, see that method’s documentation.

Returns an array of rendered map features that intersect with a given point, restricted to the given style layers.

This method returns all the intersecting features from the specified layers. To filter the returned features, use the -visibleFeaturesAtPoint:inStyleLayersWithIdentifiers:predicate: method. For more information about searching for map features, see that method’s documentation.

Returns an array of rendered map features that intersect with a given point, restricted to the given style layers and filtered by the given predicate.

Each object in the returned array represents a feature rendered by the current style and provides access to attributes specified by the relevant map content sources. The returned array includes features loaded by MGLShapeSource and MGLVectorTileSource objects but does not include anything from MGLRasterTileSource objects, or from video or canvas sources, which are unsupported by this SDK.

The returned features are drawn by a style layer in the current style. For example, suppose the current style uses the Mapbox Streets source, but none of the specified style layers includes features that have the maki property set to bus. If you pass a point corresponding to the location of a bus stop into this method, the bus stop feature does not appear in the resulting array. On the other hand, if the style does include bus stops, an MGLFeature object representing that bus stop is returned and its attributes dictionary has the maki key set to bus (along with other attributes). The dictionary contains only the attributes provided by the tile source; it does not include computed attribute values or rules about how the feature is rendered by the current style.

The returned array is sorted by z-order, starting with the topmost rendered feature and ending with the bottommost rendered feature. A feature that is rendered multiple times due to wrapping across the antimeridian at low zoom levels is included only once, subject to the caveat that follows.

Features come from tiled vector data or GeoJSON data that is converted to tiles internally, so feature geometries are clipped at tile boundaries and features may appear duplicated across tiles. For example, suppose the specified point lies along a road that spans the screen. The resulting array includes those parts of the road that lie within the map tile that contain the specified point, even if the road extends into other tiles.

To find out the layer names in a particular style, view the style in Mapbox Studio.

Only visible features are returned. To obtain features regardless of visibility, use the -[MGLVectorTileSource featuresInSourceLayersWithIdentifiers:predicate:] and -[MGLShapeSource featuresMatchingPredicate:] methods on the relevant sources.

Returns an array of rendered map features that intersect with the given rectangle.

This method may return features from any of the map’s style layers. To restrict the search to a particular layer or layers, use the -visibleFeaturesAtPoint:inStyleLayersWithIdentifiers: method. For more information about searching for map features, see that method’s documentation.

Returns an array of rendered map features that intersect with the given rectangle, restricted to the given style layers.

This method returns all the intersecting features from the specified layers. To filter the returned features, use the -visibleFeaturesAtPoint:inStyleLayersWithIdentifiers:predicate: method. For more information about searching for map features, see that method’s documentation.

Returns an array of rendered map features that intersect with the given rectangle, restricted to the given style layers and filtered by the given predicate.

Each object in the returned array represents a feature rendered by the current style and provides access to attributes specified by the relevant map content sources. The returned array includes features loaded by MGLShapeSource and MGLVectorTileSource objects but does not include anything from MGLRasterTileSource objects, or from video or canvas sources, which are unsupported by this SDK.

The returned features are drawn by a style layer in the current style. For example, suppose the current style uses the Mapbox Streets source, but none of the specified style layers includes features that have the maki property set to bus. If you pass a rectangle containing the location of a bus stop into this method, the bus stop feature does not appear in the resulting array. On the other hand, if the style does include bus stops, an MGLFeature object representing that bus stop is returned and its attributes dictionary has the maki key set to bus (along with other attributes). The dictionary contains only the attributes provided by the tile source; it does not include computed attribute values or rules about how the feature is rendered by the current style.

The returned array is sorted by z-order, starting with the topmost rendered feature and ending with the bottommost rendered feature. A feature that is rendered multiple times due to wrapping across the antimeridian at low zoom levels is included only once, subject to the caveat that follows.

Features come from tiled vector data or GeoJSON data that is converted to tiles internally, so feature geometries are clipped at tile boundaries and features may appear duplicated across tiles. For example, suppose the specified rectangle intersects with a road that spans the screen. The resulting array includes those parts of the road that lie within the map tiles covering the specified rectangle, even if the road extends into other tiles. The portion of the road within each map tile is included individually.

To find out the layer names in a particular style, view the style in Mapbox Studio.

Only visible features are returned. To obtain features regardless of visibility, use the -[MGLVectorTileSource featuresInSourceLayersWithIdentifiers:predicate:] and -[MGLShapeSource featuresMatchingPredicate:] methods on the relevant sources.

Converts a geographic coordinate to a point in the given view’s coordinate system.

Converts a point in the given view’s coordinate system to a geographic coordinate.

Converts a geographic bounding box to a rectangle in the given view’s coordinate system.

To bring both sides of the antimeridian or international date line into view, specify some longitudes less than −180 degrees or greater than 180 degrees. For example, to show both Tokyo and San Francisco simultaneously, you could set the visible bounds to extend from (35.68476, −220.24257) to (37.78428, −122.41310).

Converts a rectangle in the given view’s coordinate system to a geographic bounding box.

If a longitude is less than −180 degrees or greater than 180 degrees, the bounding box straddles the antimeridian or international date line.

Returns the distance spanned by one point in the map view’s coordinate system at the given latitude and current zoom level.

The distance between points decreases as the latitude approaches the poles. This relationship parallels the relationship between longitudinal coordinates at different latitudes.

Opens one or more webpages in the default Web browser in which the user can provide feedback about the map data.

You should add a menu item to the Help menu of your application that invokes this method. Title it “Improve This Map” or similar. Set its target to the first responder and its action to giveFeedback:.

This map view searches the current style’s sources for webpages to open. Specifically, each source’s tile set has an attribution property containing HTML code; if an <a> tag (link) within that code has an class attribute set to mapbox-improve-map, its href attribute defines the URL to open. Such links are omitted from the attribution view.

The options that determine which debugging aids are shown on the map.

These options are all disabled by default and should remain disabled in released software for performance and aesthetic reasons.