FeatureFlags makes it easy to configure feature flags, A/B and MVT tests via a JSON file which may be bundled with your app or hosted remotely. For remotely-hosted configuration files, you may enable / disable features without another release to the App Store, update the percentages of users in A/B test groups or even roll out a feature previously under A/B test to 100% of your users once you have decided that the feature is ready for prime time.
To learn more about how to use FeatureFlags, take a look at the keynote presentation, check out the blog post, or make use of the table of contents below:
- Feature flags
- A/B testing and MVT testing
- Feature A/B testing (where a feature is enabled vs a control group without the feature)
- Host your feature flags JSON configuration remotely allowing you to enable / disable features without releasing a new version of your app
- Use an existing JSON file or host an entirely new configuration
- Adjust the percentages of users in each test group remotely
- Convert an A/B test into a feature flag once you have decided whether the feature test was a success i.e. rollout a feature to 100% of users
- Visualize the state of your flags and tests using FeatureFlagsViewController in debug builds of your app
See CHANGELOG.md.
CocoaPods is a dependency manager which integrates dependencies into your Xcode workspace. To install it using RubyGems run:
gem install cocoapods
To install FeatureFlags using Cocoapods, simply add the following line to your Podfile:
pod "FeatureFlags"
Then run the command:
pod install
For more information see here.
Carthage is a dependency manager which produces a binary for manual integration into your project. It can be installed via Homebrew using the commands:
brew update
brew install carthage
In order to integrate FeatureFlags into your project via Carthage, add the following line to your project's Cartfile:
github "rwbutler/FeatureFlags"
From the macOS Terminal run carthage update --platform iOS
to build the framework then drag FeatureFlags.framework
into your Xcode project.
For more information see here.
The Swift Package Manager is a dependency manager for Swift modules and is included as part of the build system as of Swift 3.0. It is used to automate the download, compilation and linking of dependencies.
To include FeatureFlags as a dependency within a Swift package, add the package to the dependencies
entry in your Package.swift
file as follows:
dependencies: [
.package(url: "https://github.com/rwbutler/FeatureFlags.git", from: "2.0.0")
]
With the framework integrated into your project, the next step is configuration using a JSON file which may be bundled as part of your app or hosted remotely. The JSON file may be newly-created or could be an existing configuration JSON file that you're using already. Simply add a key called features
at the top level of your file mapping to an array of features as follows:
{
"features": []
}
The contents of the array depends on the feature flags and tests to be configured.
To let FeatureFlags know where to find your configuration file:
guard let featuresURL = Bundle.main.url(forResource: "features", withExtension: "json") else { return }
FeatureFlags.configurationURL = featuresURL
Or:
guard let featuresURL = URL(string: "https://www.exampledomain.com/features.json") else { return }
FeatureFlags.configurationURL = featuresURL
In the event that you opt to host your JSON file remotely, you may provide a bundled fallback as part of your app bundle:
guard let fallbackURL = Bundle.main.url(forResource: "features", withExtension: "json") else { return }
FeatureFlags.localFallbackConfigurationURL = fallbackURL
Your remotely-hosted JSON file will always take precedence over bundled settings and remotely-defined settings will be cached so that in the eventuality that the user is offline, the last settings retrieved from the network will be applied.
In order to configure a feature flag add a feature object to the features array in your JSON configuration.
{
"features": [{
"name": "Example Feature Flag",
"enabled": false
}]
}
Then add an extension on Feature.Name
to import your feature flag in code as follows:
import FeatureFlags
extension Feature.Name {
static let exampleFeatureFlag = Feature.Name(rawValue: "Example Feature Flag")
}
Make sure that the raw value matches the string in your JSON file. Then call the following to check whether the feature flag is enabled:
Feature.isEnabled(.exampleFeatureFlag))
If the string specified in your Feature.Name
extension doesn't match the value in your JSON file, the default value returned is false
. If you need to check the feature exists, you can write:
if let feature = Feature.named(.exampleFeatureFlag) {
print("Feature name -> \(feature.name)")
print("Feature enabled -> \(feature.isEnabled())")
}
To configure an A/B test, add the following feature object to the features array in your JSON file:
{
"name": "Example A/B Test",
"enabled": true,
"test-variations": ["Group A", "Group B"]
}
enabled
indicates whether or not the A/B test is enabled.
The only difference between a feature flag and an A/B test involves adding an array of test variations. FeatureFlags will assume that you are configuring an A/B test if you add two test variations to the array - add any more and the test will automatically become a multivariate test (MVT).
Import your feature into code with an extension on Feature.Name
:
extension Feature.Name {
static let exampleABTest = Feature.Name(rawValue: "Example A/B Test")
}
And then use the following to check which group the user has been assigned to:
if let test = ABTest(rawValue: .exampleABTest) {
print("Is in group A? -> \(test.isGroupA())")
print("Is in group B? -> \(test.isGroupB())")
}
Alternatively, you may prefer the following syntax:
if let feature = Feature.named(.exampleABTest) {
print("Feature name -> \(feature.name)")
print("Is group A? -> \(feature.isTestVariation(.groupA))")
print("Is group B? -> \(feature.isTestVariation(.groupB))")
print("Test variation -> \(feature.testVariation())")
}
A feature A/B test is a subtle variation on (and subtype of) an A/B test. In a generic A/B test you may want to check whether a user has been placed in the blue background or red background test variation. A feature A/B test specifically tests whether the introduction of a new feature is an improvement over a control group without the feature. Thus in a feature A/B test - the feature is either off or on.
To configure a feature A/B test use the following JSON:
{
"name": "Example Feature A/B Test",
"enabled": true,
"test-variations": ["Enabled", "Disabled"]
}
enabled
indicates whether or not the A/B test is enabled.
extension Feature.Name {
static let exampleFeatureABTest = Feature.Name(rawValue: "Example Feature A/B Test")
}
By naming the test variations Enabled
and Disabled
, FeatureFlags knows that your intention is to set up a feature A/B test.
Configuring a feature A/B test has the advantage over a generic A/B test in that instead of having to write:
if let feature = Feature.named(.exampleFeatureABTest) {
print("Feature name -> \(feature.name)")
print("Is group A? -> \(feature.isTestVariation(.enabled))")
print("Is group B? -> \(feature.isTestVariation(.disabled))")
print("Test variation -> \(feature.testVariation())")
}
You may simply use the following to determine which test group the user has been assigned to:
Feature.isEnabled(.exampleFeatureABTest))
Ordinarily using the Feature.enabled()
method tests to see whether a feature is globally enabled; in this specific instance it will return true
if the user belongs to the group receiving the new feature and false
if the user belongs to the control group. Note that this method also return false
if the enabled
property is set to false
in the JSON for this feature i.e. the test is globally disabled.
Configuration of a multivariate test follows much the same pattern as that of an A/B test. Add the following feature object to the features array in your JSON file:
{
"name": "Example MVT Test",
"enabled": true,
"test-variations": ["Group A", "Group B", "Group C"]
}
enabled
indicates whether or not the MVT test is enabled.
FeatureFlags knows that you are configuring a MVT test if you add more than two test variations to the array. Again, import your feature into code with an extension on Feature.Name
:
extension Feature.Name {
static let exampleMVTTest = Feature.Name(rawValue: "Example MVT Test")
}
Using the following to check which group the user has been assigned to:
if let feature = Feature.named(.exampleMVTTest) {
print("Feature name -> \(feature.name)")
print("Is group A? -> \(feature.isTestVariation(.groupA))")
print("Is group B? -> \(feature.isTestVariation(.groupB))β)
print("Is group C? -> \(feature.isTestVariation(.groupC))β)
print("Test variation -> \(feature.testVariation())β)
}
You are free to name your test variations whatever you wish:
{
"name": "Example MVT Test",
"enabled": true,
"test-variations": ["Red", "Green", "Blue"]
}
enabled
indicates whether or not the MVT test is enabled.
Simply create an extension on Test.Variation
to map your test variations in code:
extension Test.Variation {
static let red = Test.Variation(rawValue: "Red")
static let green = Test.Variation(rawValue: "Green")
static let blue = Test.Variation(rawValue: "Blue")
}
Then check which group the user has been assigned to:
if let feature = Feature.named(.exampleMVTTest) {
print("Feature name -> \(feature.name)")
print("Is red? -> \(feature.isTestVariation(.red))")
print("Is green? -> \(feature.isTestVariation(.green))")
print("Is blue? -> \(feature.isTestVariation(.blue))")
print("Test variation -> \(feature.testVariation())")
}
When developers speak of feature flags they are often referring to one of two things:
- Remote flags: Allow us to remotely toggle a finished feature on or off and roll it out to a specific group of users.
- Development flags: Allow to us hide features in development in order to keep code shippable.
With development flags we never want the code under development to be released to users.
Consider if we were to use a remote feature flag to toggle off an unfinished feature allowing us to release version 1 of our app without the feature present. If subsequently we were to finish the feature as part of version 2 of the app and toggle the feature on then users of version one would experience a partially complete feature as the under development version 1 code is enabled. This is a situation we never want to arise hence FeatureFlags caters for development flags as well as remote flags.
To mark a feature flag as a development flag, first of all include a bundled JSON file as part of your app containing the features
key. The JSON file may be an existing file or an entirely new file. Next, having defined your feature flags as part of this file, set the configuration URL to reference this file:
guard let featuresURL = Bundle.main.url(forResource: "features", withExtension: "json") else { return }
FeatureFlags.configurationURL = featuresURL
Or, if you are already using a remote configuration URL then set the fallback configuration URL instead:
guard let fallbackURL = Bundle.main.url(forResource: "features", withExtension: "json") else { return }
FeatureFlags.localFallbackConfigurationURL = fallbackURL
Set up your feature flag in JSON as you would do normally but setting the development
property to true
:
{
"features": [{
"name": "Example Feature Flag",
"development": true,
"enabled": true
}]
}
And that's it! From now on this feature flag will be considered a development flag and the code behind it will never be released to users even if enabled
is set.
Development flag code will be shown in the following cases:
- If the
#DEBUG
preprocessor flag is set and the flag isenabled
. - If
FeatureFlags.isDevelopment
is set totrue
(it is up to the developer to set this totrue
when the app is in development - the default value isfalse
) and the flag isenabled
.
If you need more granular control over code that is in development then you may pass the isDevelopment
flag when checking whether or not a feature is enabled e.g.:
if let feature = Feature.named(.exampleFeatureFlag, isDevelopment: true) {
print("Feature name -> \(feature.name)")
print("Feature enabled -> \(feature.isEnabled())")
}
In this example, the print
statements will only be executed if exampleFeatureFlag
is enabled and the app is development (i.e. either #DEBUG
or FeatureFlags.isDevelopment
is set).
Regardless of whether a feature flag is controlled locally or remotely, the types of flag above operate at global level i.e. they will enable or disable a feature for all users. But if we want to unlock a feature for individual users following an in-app purchase or as a reward for the completion of some goal then we need a way to unlock the feature and have it remain unlocked - we achieve this with unlock flags.
To configure an unlock flag in your configuration JSON file add the following:
{
"features": [{
"name": "Example Unlock Flag",
"enabled": true,
"unlocked": false
}]
}
The unlocked
property indicates to FeatureFlags that this is to be an unlock flag whose default value is false
i.e. the feature will be locked to begin with. Note that if enabled
property is set to false
then the feature will be disabled for all users regardless of whether the feature has been unlocked for a particular user as this property operates at a global level.
It is possible to query whether or not an unlock flag is unlocked as follows:
if let feature = Feature.named(.exampleUnlockFlag) {
print("Is unlocked? -> \(feature.isUnlocked())")
}
When you wish to unlock a feature for the user, call feature.unlock()
. Conversely, if you only wish to unlock a feature for a certain period of time e.g. to allow the user to trial a feature, you may later call feature.lock()
to make the feature unavailable again. Both methods return a Bool
to indicate whether or not the feature has been unlocked / locked.
if let feature = Feature.named(.exampleUnlockFlag) {
print("Is unlocked? -> \(feature.unlock())")
}
Note that a feature may not be unlocked if:
- The feature flag is not an unlock flag i.e. the
unlocked
property was not defined in JSON. - The
enabled
property is set tofalse
.
By default for any A/B or MVT test, the user is equally likely to be assigned each of the specified test variations i.e. for an A/B test, there's a 50%/50% chance of being assigned one group or another. For a MVT test with four variations, the chance of being assigned to each is 25%.
It is possible to configure a test bias such that the likelihood of being assigned to each test variation is not equal. To do so, simply add the following JSON to your feature object:
{
"features": [{
"name": "Example A/B Test",
"enabled": true,
"test-biases": [80, 20],
"test-variations": ["Group A", "Group B"]
}]
}
The number of weightings specified in the test-biases
array must be equal to the number of test variations and must amount to 100 otherwise the weightings will be ignored and default to equal weightings.
It is possible to attach labels to test variations in case you wish to send analytics respective to the test group to which a user has been assigned.
To do so, define an array of labels
of equal length to the number of test variations specified:
{
"features": [{
"name": "Example A/B Test",
"enabled": true,
"test-biases": [50, 50],
"test-variations": ["Group A", "Group B"],
"labels": ["label1-for-analytics", "label2-for-analytics"]
}]
}
Then to retrieve your labels in code you would write the following:
if let feature = Feature.named(.exampleABTest) {
print("Group A label -> \(feature.label(.groupA))")
print("Group B label -> \(feature.label(.groupB))")
}
The most powerful feature of the FeatureFlags framework is the ability to adjust the test biases in your remote JSON configuration file and have the users automatically be re-assigned to new test groups. For example, you might decide to roll out a feature using a 10%/90% (whereby 10% of users receive the new feature) split in the first week, 20%/80% in the second week and so on.
Simply update the weightings in the test-biases
array and the next time the framework checks your JSON configuration, groups will be re-assigned.
When you are done A/B or MVT testing a feature you will have gathered enough analytics to decide whether or not to roll out the feature to your entire user base. At this point, you may decide to disable the feature entirely by setting the enabled
flag to false
in your JSON file or in the case of a successful test, you may decide to roll out the feature to all users by adjusting the feature object in your JSON file from:
{
"features": [{
"name": "Example A/B Test",
"enabled": true,
"test-biases": [50, 50],
"test-variations": ["Group A", "Group B"],
"labels": ["label1-for-analytics", "label2-for-analytics"]
}]
}
To a feature flag globally enabled for all users as follows:
{
"features": [{
"name": "Example A/B Test",
"enabled": true
}]
}
In order to test that both variations of your new feature work correctly you may need to adjust the status of your feature flags / tests at runtime. To this end FeatureFlags provides the FeatureFlagsViewController
which allows you to toggle features flags on/off in debug builds of your app or cycle A/B testing or MVT testing variations.
To display the view controller specify the navigational preferences desired and then push the view controller by providing a UINavigationController
:
let navigationSettings = FeatureFlagsViewControllerNavigationSettings(autoClose: true, closeButtonAlignment: .right, closeButton: .save, isNavigationBarHidden: false)
FeatureFlags.pushFeatureFlags(delegate: self, navigationController: navigationController, navigationSettings: navigationSettings)
Should you need further information on the state of each feature flag / test, you may use 3D Touch to peek / pop more information.
Should you need to refresh your configuration at any time you may call FeatureFlags.refresh()
which optionally accepts a completion closure to notify you when the refresh is complete.
If you have opted to include your feature flag information as part of an existing JSON file which your app has already fetched you may wish to use the following method passing the JSON file data to avoid repeated network calls:
FeatureFlags.refreshWithData(_:completion:)
Whilst FeatureFlags is primarily intended for use by Swift apps, should the need arise to check whether a feature flag is enabled in Objective-C it is possible to do so as follows:
static NSString *const kMyNewFeatureFlag = @"My New Feature Flag";
if (FEATURE_IS_ENABLED(kMyNewFeatureFlag)) {
...
}
FeatureFlags is available under the MIT license. See the LICENSE file for more info.
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