An Example iOS 7 MKMapItem Application
Previous | Table of Contents | Next |
Integrating Maps into iOS 7 Applications using MKMapItem | Getting Location Information using the iOS 7 Core Location Framework |
Learn SwiftUI and take your iOS Development to the Next Level |
The objective of this chapter is to work through the creation of an example iOS 7 application which makes use of reverse geocoding together with the MKPlacemark and MKMapItem classes. The application will consist of a screen into which the user will be required to enter destination address information. When a button is selected by the user, a map will be launched containing turn-by-turn directions from the user’s current location to the specified destination.
Creating the MapItem Project
Launch Xcode and create a new project by selecting the options to create a new iOS application based on the Single View Application template. Enter MapItem as the product name and class prefix and set the device menu either to iPhone or iPad.
Designing the User Interface
The user interface will consist of four Text Field objects into which the destination address will be entered, together with a Button to launch the map. Select the Main.storyboard file in the project navigator panel and, using the Object Library palette, design the user interface layout such that it resembles that of Figure 67-1.
If you reside in a country that is not divided into States and Zip code regions, feel free to adjust the user interface accordingly.
The next step is to connect the outlets for the text views and declare an action for the button. Select the Street address Text Field object and display the Assistant Editor using View -> Assistant Editor -> Show Assistant Editor menu option or the center button of the row of Editor toolbar buttons in the top right hand corner of the main Xcode window. Make sure that the editor is displaying the MapItemViewController.h file.
Figure 67-1
Ctrl-click on the Street address Text Field object and drag the resulting line to the area immediately beneath the @interface directive in the Assistant Editor panel. Upon releasing the line, the configuration panel will appear. Configure the connection as an Outlet named address and click on the Connect button. Repeat these steps for the City, State and Zip text fields, connecting them to outlets named city, state and zip respectively.
Ctrl-click on the Get Directions button and drag the resulting line to a position beneath the new outlets declared in the Assistant Editor. In the resulting configuration panel, change the Connection type to Action and name the method getDirections. On completion, the MapItemViewController.h file should read as follows:
#import <UIKit/UIKit.h> @interface MapItemViewController : UIViewController @property (strong, nonatomic) IBOutlet UITextField *address; @property (strong, nonatomic) IBOutlet UITextField *city; @property (strong, nonatomic) IBOutlet UITextField *state; @property (strong, nonatomic) IBOutlet UITextField *zip; - (IBAction)getDirections:(id)sender; @end
Learn SwiftUI and take your iOS Development to the Next Level |
Converting the Destination using Forward Geocoding
When the user touches the button in the user interface, the getDirections method will be able to extract the address information from the text fields. The objective will be to create an MKPlacemark object to contain this location. As outlined in Integrating Maps into iOS 7 Applications using MKMapItem, an MKPlacemark instance requires the longitude and latitude of an address before it can be instantiated. The first step in the getDirections method is to perform a forward geocode translation of the address. Before doing so, however, it is necessary to declare a property in the MapItemViewController.h file in which to store these coordinates once they have been calculated. This will, in turn, require that the <CoreLocation/CoreLocation.h> file be imported. Now is also an opportune time to import the <MapKit/MapKit.h> and <AddressBook/AddressBook.h> files, both of which will be required later in the chapter:
#import <UIKit/UIKit.h> #import <CoreLocation/CoreLocation.h> #import <MapKit/MapKit.h> #import <AddressBook/AddressBook.h> @interface MapItemViewController : UIViewController @property CLLocationCoordinate2D coords; @property (strong, nonatomic) IBOutlet UITextField *address; @property (strong, nonatomic) IBOutlet UITextField *city; @property (strong, nonatomic) IBOutlet UITextField *state; @property (strong, nonatomic) IBOutlet UITextField *zip; - (IBAction)getDirections:(id)sender; @end
Next, select the MapItemViewController.m file, locate the getDirections method stub and modify it to convert the address string to geographical coordinates:
- (IBAction)getDirections:(id)sender { CLGeocoder *geocoder = [[CLGeocoder alloc] init]; NSString *addressString = [NSString stringWithFormat: @"%@ %@ %@ %@", _address.text, _city.text, _state.text, _zip.text]; [geocoder geocodeAddressString:addressString completionHandler:^(NSArray *placemarks, NSError *error) { if (error) { NSLog(@"Geocode failed with error: %@", error); return; } if (placemarks && placemarks.count > 0) { CLPlacemark *placemark = placemarks[0]; CLLocation *location = placemark.location; _coords = location.coordinate; [self showMap]; } }]; }
The steps used to perform the geocoding translation mirror those outlined in Integrating Maps into iOS 7 Applications using MKMapItem with one difference in that a method named showMap is called in the event that a successful translation took place. All that remains, therefore, is to implement this method.
Launching the Map
With the address string and coordinates obtained, the final task is to implement the showMap method. This method will create a new MKPlacemark instance for the destination address, configure options for the map to request driving directions and then launch the map. Since the map will be launched with a single map item, it will default to providing directions from the current location. With the MapItemViewController.m file still selected, add the code for the showMap method so that it reads as follows:
-(void)showMap { NSDictionary *address = @{ (NSString *)kABPersonAddressStreetKey: _address.text, (NSString *)kABPersonAddressCityKey: _city.text, (NSString *)kABPersonAddressStateKey: _state.text, (NSString *)kABPersonAddressZIPKey: _zip.text }; MKPlacemark *place = [[MKPlacemark alloc] initWithCoordinate:_coords addressDictionary:address]; MKMapItem *mapItem = [[MKMapItem alloc]initWithPlacemark:place]; NSDictionary *options = @{ MKLaunchOptionsDirectionsModeKey: MKLaunchOptionsDirectionsModeDriving }; [mapItem openInMapsWithLaunchOptions:options]; }
The method simply creates an NSDictionary containing the AddressBook keys and values for the destination address and then creates an MKPlacemark instance using the address dictionary and the coordinates from the forward-geocoding operation. A new MKMapItem object is created using the placemarker object before another dictionary is created and configured to request driving directions. Finally, the map is launched.
Building and Running the Application
Figure 67-2
Summary
The goal of this chapter has been to work through the creation of a simple application designed to use a combination of geocoding and the MKPlacemark and MKMapItem classes. The example application created in this chapter has demonstrated the ease with which maps and directions can be integrated into iOS 7 applications.
Learn SwiftUI and take your iOS Development to the Next Level |
Previous | Table of Contents | Next |
Integrating Maps into iOS 7 Applications using MKMapItem | Getting Location Information using the iOS 7 Core Location Framework |