Like the Android app you built in the previous step, the iOS app is a simple mobile app that communicates with the backend server.
Here, you'll do the following:
BUILD fileNote that, unlike with the Android app, you don't have to modify your WORKSPACE file to add iOS-specific external dependencies.
If you're following the steps in this tutorial on Mac OS X, you can go ahead and build the sample iOS app as described below. If you are on Linux, skip ahead to the next step.
Let‘s take a look at the source files for the app. These are located in $WORKSPACE/ios-app/UrlGet. Again, you’re just looking at these files now to become familiar with the structure of the app. You don't have to edit any of the source files to complete this tutorial.
At a command-line prompt, open your new BUILD file for editing:
$ vi $WORKSPACE/ios-app/BUILD
Bazel provides several build rules, that you can use to build an app for the iOS platform. For this tutorial, you‘ll first use the objc_library rule to tell Bazel how to build an static library from the app source code and Xib files. Then you’ll use the objc_binary rule to tell it how to bundle the iOS application. (Note that this is a minimal use case of the Objective-C rules in Bazel. For example, you have to use the ios_application rule to build multi-architecture iOS apps.)
Add the following to your BUILD file:
objc_library( name = "UrlGetClasses", srcs = [ "UrlGet/AppDelegate.m", "UrlGet/UrlGetViewController.m", ], hdrs = glob(["UrlGet/*.h"]), xibs = ["UrlGet/UrlGetViewController.xib"], )
Note the name of the rule, UrlGetClasses.
The objc_binary rule creates the bundled .ipa archive file for the application and also generates an Xcode project file.
Add the following to your BUILD file:
objc_binary( name = "ios-app", srcs = [ "UrlGet/main.m", ], deps = [ ":UrlGetClasses", ], infoplist = "UrlGet/UrlGet-Info.plist", )
Now, save and close the file. You can compare your BUILD file to the completed example in the master branch of the GitHub repo.
Again, note how the deps attribute references the output of the UrlGetClasses rule you added to the BUILD file above.
Make sure that your current working directory is inside your Bazel workspace:
$ cd $WORKSPACE
Now, enter the following to build the sample app:
$ bazel build //ios-app:ios-app
Bazel now launches and builds the sample app. During the build process, its output will appear similar to the following:
INFO: Found 1 target... Target //ios-app:ios-app up-to-date: bazel-bin/ios-app/ios-app_bin bazel-bin/ios-app/ios-app.ipa bazel-bin/ios-app/ios-app.xcodeproj/project.pbxproj INFO: Elapsed time: 3.765s, Critical Path: 3.44s
The .ipa file and other outputs are located in the $WORKSPACE/bazel-bin/ios-app directory.
You can now run the app from Xcode using the iOS Simulator. To run the app, open the project directory $WORKSPACE/bazel-bin/ios-app/ios-app.xcodeproj in Xcode, choose an iOS Simulator as the runtime scheme and then click the Run button.
Note: If you change anything about the project file set in Xcode (for example, if you add or remove a file, or add or change a dependency), you must rebuild the app using Bazel and then re-open the project.
The next step is to build a backend server for the two mobile apps you built in this tutorial.