A fully featured Gherkin parser and test runner. Works with Flutter and Dart 2.
This implementation of the Gherkin tries to follow as closely as possible other implementations of Gherkin and specifically Cucumber in it's various forms.
Available as a Dart package https://pub.dartlang.org/packages/flutter_gherkin
# Comment
Feature: Addition
@tag
Scenario: 1 + 0
Given I start with 1
When I add 0
Then I end up with 1
Scenario: 1 + 1
Given I start with 1
When I add 1
Then I end up with 2
This package will soon have a major release to support null-safety and then another major release to support running tests using the integration_test package and WidgetTester
. We will still maintain compatibility for running tests using flutter_driver and do our best so that switching over to using the integration_test package will be seamless. For this to happen we have had to refactor large chunks of the code base so unfortunately there will be some unavoidable breaking changes.
- Getting Started
- Features Files
- Hooks
- Attachments
- Reporting
- Flutter
See https://docs.cucumber.io/gherkin/ for information on the Gherkin syntax and Behaviour Driven Development (BDD).
See example readme for a quick start guide to running the example features and app.
The first step is to create a version of your app that has flutter driver enabled so that it can be automated. A good guide how to do this is show here. However in short, create a folder called test_driver
and within that create a file called app.dart
and paste in the below code.
import '../lib/main.dart';
import 'package:flutter/widgets.dart';
import 'package:flutter_driver/driver_extension.dart';
void main() {
// This line enables the extension
enableFlutterDriverExtension();
// Call the `main()` function of your app or call `runApp` with any widget you
// are interested in testing.
runApp(MyApp());
}
All this code does is enable the Flutter driver extension which is required to be able to automate the app and then runs your application.
To get started with BDD in Flutter the first step is to write a feature file and a test scenario within that.
First create a folder called test_driver
(this is inline with the current integration test as we will need to use the Flutter driver to automate the app). Within the folder create a folder called features
, then create a file called counter.feature
.
Feature: Counter
The counter should be incremented when the button is pressed.
Scenario: Counter increases when the button is pressed
Given I expect the "counter" to be "0"
When I tap the "increment" button 10 times
Then I expect the "counter" to be "10"
Now we have created a scenario we need to implement the steps within. Steps are just classes that extends from the base step definition class or any of its variations Given
, Then
, When
, And
, But
.
Granted the example is a little contrived but is serves to illustrate the process.
This library has a couple of built in step definitions for convenience. The first step uses the built in step, however the second step When I tap the "increment" button 10 times
is a custom step and has to be implemented. To implement a step we have to create a simple step definition class.
import 'package:flutter_driver/flutter_driver.dart';
import 'package:flutter_gherkin/flutter_gherkin.dart';
import 'package:gherkin/gherkin.dart';
StepDefinitionGeneric TapButtonNTimesStep() {
return when2<String, int, FlutterWorld>(
'I tap the {string} button {int} times',
(key, count, context) async {
final locator = find.byValueKey(key);
for (var i = 0; i < count; i += 1) {
await FlutterDriverUtils.tap(context.world.driver, locator);
}
},
);
}
As you can see the when2
method is invoked specifying two input parameters. The third type FlutterWorld
is a special world context object that allow access from the context object to the Flutter driver that allows you to interact with your app. If you did not need a custom world object or strongly typed parameters you can omit the type arguments completely.
The input parameters are retrieved via the pattern regex from well know parameter types {string}
and {int}
explained below. They are just special syntax to indicate you are expecting a string and an integer at those points in the step text. Therefore, when the step to execute is When I tap the "increment" button 10 times
the parameters "increment" and 10 will be passed into the step as the correct types. Note that in the pattern you can use any regex capture group to indicate any input parameter. For example the regex
RegExp(r"When I tap the {string} (button|icon) {int} times")
indicates 3 parameters and would match to either of the below step text.
When I tap the "increment" button 10 times // passes 3 parameters "increment", "button" & 10
When I tap the "plus" icon 2 times // passes 3 parameters "plus", "icon" & 2
It is worth noting that this library does not rely on mirrors (reflection) for many reasons but most prominently for ease of maintenance and to fall inline with the principles of Flutter not allowing reflection. All in all this make for a much easier to understand and maintain code base as well as much easier debugging for the user. The downside is that we have to be slightly more explicit by providing instances of custom code such as step definition, hook, reporters and custom parameters.
Now that we have a testable app, a feature file and a custom step definition we need to create a class that will call this library and actually run the tests. Create a file called app_test.dart
and put the below code in.
import 'dart:async';
import 'package:flutter_gherkin/flutter_gherkin.dart';
import 'package:gherkin/gherkin.dart';
import 'hooks/hook_example.dart';
import 'steps/colour_parameter.dart';
import 'steps/given_I_pick_a_colour_step.dart';
import 'steps/tap_button_n_times_step.dart';
Future<void> main() {
final config = FlutterTestConfiguration()
..features = [RegExp('features/*.*.feature')]
..reporters = [
ProgressReporter(),
TestRunSummaryReporter(),
JsonReporter(path: './report.json')
] // you can include the "StdoutReporter()" without the message level parameter for verbose log information
..hooks = [HookExample()]
..stepDefinitions = [TapButtonNTimesStep(), GivenIPickAColour()]
..customStepParameterDefinitions = [ColourParameter()]
..restartAppBetweenScenarios = true
..targetAppPath = "test_driver/app.dart";
// ..tagExpression = "@smoke" // uncomment to see an example of running scenarios based on tag expressions
return GherkinRunner().execute(config);
}
This code simple creates a configuration object and calls this library which will then promptly parse your feature files and run the tests. The configuration file is important and explained in further detail below. However, all that is happening is a RegExp
is provide which specifies the path to one or more feature files, it sets the reporters to the ProgressReporter
report which prints the result of scenarios and steps to the standard output (console). The TestRunSummaryReporter
prints a summary of the run once all tests have been executed. Finally it specifies the path to the testable app created above test_driver/app.dart
. This is important as it instructions the library which app to run the tests against.
Finally to actually run the tests run the below on the command line:
dart test_driver/app_test.dart
To debug tests see Debugging.
Note: You might need to ensure dart is accessible by adding it to your path variable.
The configuration is an important piece of the puzzle in this library as it specifies not only what to run but classes to run against in the form of steps, hooks and reporters. Unlike other implementation this library does not rely on reflection so need to be explicitly told classes to use.
The parameters below can be specified in your configuration file:
Required
An iterable of Pattern
that specify the location(s) of *.feature
files to run. See https://api.dart.dev/stable/2.12.4/dart-core/Pattern-class.html
Defaults to null
.
An infix boolean expression which defines the features and scenarios to run based of their tags. See Tags.
Defaults to ExecutionOrder.random
The order by which scenarios will be run. Running an a random order may highlight any inter-test dependencies that should be fixed. Running with ExecutionOrder.sorted
processes the feature files in filename
order.
Defaults to Iterable<StepDefinitionBase>
Place instances of any custom step definition classes Given
, Then
, When
, And
, But
that match to any custom steps defined in your feature files.
import 'dart:async';
import 'package:flutter_gherkin/flutter_gherkin.dart';
import 'package:gherkin/gherkin.dart';
import 'steps/given_I_pick_a_colour_step.dart';
import 'steps/tap_button_n_times_step.dart';
Future<void> main() {
final config = FlutterTestConfiguration()
..features = [RegExp('features/*.*.feature')]
..reporters = [StdoutReporter()]
..stepDefinitions = [TapButtonNTimesStep(), GivenIPickAColour()]
..restartAppBetweenScenarios = true
..targetAppPath = "test_driver/app.dart";
return GherkinRunner().execute(config);
}
Defaults to en
This specifies the default language the feature files are written in. See https://cucumber.io/docs/gherkin/reference/#overview for supported languages.
Note that this can be overridden in the feature itself by the use of a language block.
# language: de
Funktionalität: Calculator
Tests the addition of two numbers
Szenariogrundriss: Add two numbers
Gegeben sei the numbers <number_one> and <number_two>
Wenn they are added
Dann the expected result is <result>
Beispiele:
| number_one | number_two | result |
| 12 | 5 | 17 |
| 20 | 5 | 25 |
| 20937 | 1 | 20938 |
| 20.937 | -1.937 | 19 |
# language: fr
Fonctionnalité: Counter
The counter should be incremented when the button is pressed.
@smoke
Scénario: Counter increases when the button is pressed
Etant donné que I pick the colour red
Et I expect the "counter" to be "0"
Quand I tap the "increment" button 10 times
Alors I expect the "counter" to be "10"
Defaults to CustomParameter<dynamic>
.
Place instances of any custom step parameters that you have defined. These will be matched up to steps when scenarios are run and their result passed to the executable step. See Custom Parameters.
import 'dart:async';
import 'package:flutter_gherkin/flutter_gherkin.dart';
import 'package:gherkin/gherkin.dart';
import 'steps/given_I_pick_a_colour_step.dart';
import 'steps/tap_button_n_times_step.dart';
import 'steps/colour_parameter.dart';
Future<void> main() {
final config = FlutterTestConfiguration()
..features = [RegExp('features/*.*.feature')]
..reporters = [StdoutReporter()]
..stepDefinitions = [TapButtonNTimesStep(), GivenIPickAColour()]
..customStepParameterDefinitions = [ColourParameter()]
..restartAppBetweenScenarios = true
..targetAppPath = "test_driver/app.dart";
return GherkinRunner().execute(config);
}
Hooks are custom bits of code that can be run at certain points with the test run such as before or after a scenario. Place instances of any custom Hook
class instance in this collection. They will then be run at the defined points with the test run.
Attachment are pieces of data you can attach to a running scenario. This could be simple bits of textual data or even image like a screenshot. These attachments can then be used by reporters to provide more contextual information. For example when a step fails some contextual information could be attached to the scenario which is then used by a reporter to display why the step failed.
Attachments would typically be attached via a Hook
for example onAfterStep
.
import 'package:gherkin/gherkin.dart';
class AttachScreenshotOnFailedStepHook extends Hook {
/// Run after a step has executed
@override
Future<void> onAfterStep(World world, String step, StepResult stepResult) async {
if (stepResult.result == StepExecutionResult.fail) {
world.attach('Some info.','text/plain');
world.attach('{"some", "JSON"}}', 'application/json');
}
}
}
To take a screenshot on a step failing you can used the pre-defined hook AttachScreenshotOnFailedStepHook
and include it in the hook configuration of the tests config. This hook will take a screenshot and add it as an attachment to the scenario. If the JsonReporter
is being used the screenshot will be embedded in the report which can be used to generate a HTML report which will ultimately display the screenshot under the failed step.
import 'dart:async';
import 'package:flutter_gherkin/flutter_gherkin.dart';
import 'package:gherkin/gherkin.dart';
import 'hooks/hook_example.dart';
import 'steps/colour_parameter.dart';
import 'steps/given_I_pick_a_colour_step.dart';
import 'steps/tap_button_n_times_step.dart';
Future<void> main() {
final config = FlutterTestConfiguration()
..features = [RegExp('features/*.*.feature')]
..reporters = [
ProgressReporter(),
TestRunSummaryReporter(),
JsonReporter(path: './report.json')
]
..hooks = [HookExample(), AttachScreenshotOnFailedStepHook()]
..stepDefinitions = [TapButtonNTimesStep(), GivenIPickAColour()]
..customStepParameterDefinitions = [ColourParameter()]
..restartAppBetweenScenarios = true
..targetAppPath = "test_driver/app.dart";
return GherkinRunner().execute(config);
}
Reporters are classes that are able to report on the status of the test run. This could be a simple as merely logging scenario result to the console. There are a number of built-in reporter:
StdoutReporter
: Logs all messages from the test run to the standard output (console).ProgressReporter
: Logs the progress of the test run marking each step with a scenario as either passed, skipped or failed.JsonReporter
- creates a JSON file with the results of the test run which can then be used by 'https://www.npmjs.com/package/cucumber-html-reporter.' to create a HTML report. You can pass in the file path of the json file to be created.
You should provide at least one reporter in the configuration otherwise it'll be hard to know what is going on.
Note: Feel free to PR new reporters!
import 'dart:async';
import 'package:flutter_gherkin/flutter_gherkin.dart';
import 'steps/colour_parameter.dart';
import 'steps/given_I_pick_a_colour_step.dart';
import 'steps/tap_button_n_times_step.dart';
Future<void> main() {
final config = FlutterTestConfiguration()
..features = [RegExp('features/*.*.feature')]
..reporters = [StdoutReporter()]
..stepDefinitions = [TapButtonNTimesStep(), GivenIPickAColour()]
..customStepParameterDefinitions = [ColourParameter()]
..restartAppBetweenScenarios = true
..targetAppPath = "test_driver/app.dart";
return GherkinRunner().execute(config);
}
Defaults to null
.
While it is not recommended so share state between steps within the same scenario we all in fact live in the real world and thus at time may need to share certain information such as login credentials etc for future steps to use. The world context object is created once per scenario and then destroyed at the end of each scenario. This configuration property allows you to specify a custom World
class to create which can then be accessed in your step classes.
import 'dart:async';
import 'package:flutter_gherkin/flutter_gherkin.dart';
import 'steps/given_I_pick_a_colour_step.dart';
import 'steps/tap_button_n_times_step.dart';
Future<void> main() {
final config = FlutterTestConfiguration()
..features = [RegExp('features/*.*.feature')]
..reporters = [StdoutReporter()]
..stepDefinitions = [TapButtonNTimesStep(), GivenIPickAColour()]
..createWorld = (TestConfiguration config) async => await createMyWorldInstance(config)
..restartAppBetweenScenarios = true
..targetAppPath = "test_driver/app.dart";
return GherkinRunner().execute(config);
}
Defaults to false
If true
the output from the flutter process is logged to the stdout / stderr streams. Useful when debugging app build or start failures
Defaults to 90 seconds
Specifies the period of time to wait for the Flutter build to complete and the app to be installed and in a state to be tested. Slower machines may need longer than the default 90 seconds to complete this process.
An async method that is called before an attempt by Flutter driver to connect to the app under test
An async method that is called after a successful attempt by Flutter driver to connect to the app under test
Defaults to 3
Specifies the number of Flutter driver connection attempts to a running app before the test is aborted
Defaults to 2 seconds
Specifies the amount of time to wait after a failed Flutter driver connection attempt to the running app
The FlutterTestConfiguration
will automatically create some default Flutter options such as well know step definitions, the Flutter world context object which provides access to a Flutter driver instance as well as the ability to restart you application under test between scenarios. Most of the time you should use this configuration object if you are testing Flutter applications.
Defaults to true
.
To avoid tests starting on an app changed by a previous test it is suggested that the Flutter application under test be restarted between each scenario. While this will increase the execution time slightly it will limit tests failing because they run against an app changed by a previous test. Note in more complex application it may also be necessary to use the AfterScenario
hook to reset the application to a base state a test can run on. Logging out for example if restarting an application will present a lock screen etc. This now performs a hot reload of the application which resets the state and drastically reduces the time to run the tests.
Defaults to lib/test_driver/app.dart
This should point to the testable application that enables the Flutter driver extensions and thus is able to be automated. This application wil be started when the test run is started and restarted if the restartAppBetweenScenarios
configuration property is set to true.
Defaults to true
This optional argument lets you specify if the target application should be built prior to running the first test. This defaults to true
Defaults to false
This optional argument will keep the Flutter application running when done testing. This defaults to false
Defaults to empty string
This optional argument lets you specify which flutter flavor you want to test against. Flutter's flavor has similar concept with Android Build Variants
or iOS Scheme Configuration
. This flavoring flutter documentation has complete guide on both flutter and android/ios side.
Defaults to BuildMode.Debug
This optional argument lets you specify which build mode you prefer while compiling your app. Flutter Gherkin supports --debug
and --profile
modes. Check Flutter's build modes documentation for more details.
Defaults to []
--dart-define
args to pass into the build parameters. Include the name and value for each. For example, --dart-define=MY_VAR="true"
becomes ['MY_VAR="true"']
Defaults to empty string
This optional argument lets you specify device target id as flutter run --device-id
command. To show list of connected devices, run flutter devices
. If you only have one device connected, no need to provide this argument.
An observatory url that the test runner can connect to instead of creating a new running instance of the target application
The url takes the form of http://127.0.0.1:51540/EM72VtRsUV0=/
and usually printed to stdout in the form Connecting to service protocol: http://127.0.0.1:51540/EM72VtRsUV0=/
You will have to add the --verbose
flag to the command to start your flutter app to see this output and ensure enableFlutterDriverExtension()
is called by the running app
Step definitions are the coded representation of a textual step in a feature file. Each step starts with either Given
, Then
, When
, And
or But
. It is worth noting that all steps are actually the same but semantically different. The keyword is not taken into account when matching a step. Therefore the two below steps are actually treated the same and will result in the same step definition being invoked.
Note: Step definitions (in this implementation) are allowed up to 5 input parameters. If you find yourself needing more than this you might want to consider making your step more isolated or using a Table
parameter.
Given there are 6 kangaroos
Then there are 6 kangaroos
However, the domain language you choose will influence what keyword works best in each context. For more information https://docs.cucumber.io/gherkin/reference/#steps.
Given
steps are used to describe the initial state of a system. The execution of a Given
step will usually put the system into well defined state.
To implement a Given
step you can inherit from the
Given
class.
Given Bob has logged in
Would be implemented like so:
import 'package:gherkin/gherkin.dart';
StepDefinitionGeneric GivenWellKnownUserIsLoggedIn() {
return given1(
RegExp(r'(Bob|Mary|Emma|Jon) has logged in'),
(wellKnownUsername, context) async {
// implement your code
},
);
}
If you need to have more than one Given in a block it is often best to use the additional keywords And
or But
.
Given Bob has logged in
And opened the dashboard
Then
steps are used to describe an expected outcome, or result. They would typically have an assertion in which can pass or fail.
Then I expect 10 apples
Would be implemented like so:
import 'package:gherkin/gherkin.dart';
StepDefinitionGeneric ThenExpectAppleCount() {
return then1(
'I expect {int} apple(s)',
(count, context) async {
// example code
final actualCount = await _getActualCount();
context.expectMatch(actualCount, count);
},
);
}
Caveat: The expect
library currently only works within the library's own test
function blocks; so using it with a Then
step will cause an error. Therefore, the expectMatch
or expectA
or this.expect
or context.expect
methods have been added which mimic the underlying functionality of except
in that they assert that the give is true. The Matcher
within Dart's test library still work and can be used as expected.
By default a step will timeout if it exceed the defaultTimeout
parameter in the configuration file. In some cases you want have a step that is longer or shorter running and in the case you can optionally proved a custom timeout to that step. To do this pass in a Duration
object in the step's call to super
.
For example, the below sets the step's timeout to 10 seconds.
import 'package:flutter_driver/flutter_driver.dart';
import 'package:flutter_gherkin/flutter_gherkin.dart';
import 'package:gherkin/gherkin.dart';
StepDefinitionGeneric TapButtonNTimesStep() {
return given2<String, int, FlutterWorld>(
'I tap the {string} button {int} times',
(key, count, context) async {
final locator = find.byValueKey(key);
for (var i = 0; i < count; i += 1) {
await FlutterDriverUtils.tap(context.world.driver, locator);
}
},
);
}
Multiline strings can follow a step and will be give to the step it proceeds as the final argument. To denote a multiline string the pre and postfix can either be third double or single quotes """ ... """
or ''' ... '''
.
For example:
Given I provide the following "review" comment
"""
Some long review comment.
That can span multiple lines
Skip lines
Maybe even include some numbers
1
2
3
"""
The matching step definition would then be:
import 'package:gherkin/gherkin.dart';
StepDefinitionGeneric GivenTheMultiLineComment() {
return given1(
'I provide the following {string} comment',
(comment, context) async {
// implement step
},
);
}
import 'package:gherkin/gherkin.dart';
/// This step expects a multiline string proceeding it
///
/// For example:
///
/// `When I add the users`
/// | Firstname | Surname | Age | Gender |
/// | Woody | Johnson | 28 | Male |
/// | Edith | Summers | 23 | Female |
/// | Megan | Hill | 83 | Female |
StepDefinitionGeneric WhenIAddTheUsers() {
return when1(
'I add the users',
(Table dataTable, context) async {
for (var row in dataTable.rows) {
// do something with row
row.columns.forEach((columnValue) => print(columnValue));
}
// or get the table as a map (column values keyed by the header)
final columns = dataTable.asMap();
final personOne = columns.elementAt(0);
final personOneName = personOne["Firstname"];
print('Name of first user: `$personOneName` ');
},
);
}
In addition to being able to define a step's own parameters (by using regex capturing groups) there are some well known parameter types you can include that will automatically match and convert the parameter into the correct type before passing it to you step definition. (see https://docs.cucumber.io/cucumber/cucumber-expressions/#parameter-types).
In most scenarios theses parameters will be enough for you to write quite advanced step definitions.
Parameter Name | Description | Aliases | Type | Example |
---|---|---|---|---|
{word} | Matches a single word surrounded by a quotes | {word}, {Word} | String | Given I eat a {word} would match Given I eat a "worm" |
{string} | Matches one more words surrounded by a quotes | {string}, {String} | String | Given I eat a {string} would match Given I eat a "can of worms" |
{int} | Matches an integer | {int}, {Int} | int | Given I see {int} worm(s) would match Given I see 6 worms |
{num} | Matches an number | {num}, {Num}, {float}, {Float} | num | Given I see {num} worm(s) would match Given I see 0.75 worms |
Note that you can combine there well known parameters in any step. For example Given I {word} {int} worm(s)
would match Given I "see" 6 worms
and also match Given I "eat" 1 worm
As the aim of a feature is to convey human readable tests it is often desirable to optionally have some word pluralized so you can use the special pluralization syntax to do simple pluralization of some words in your step definition. For example:
The step string Given I see {int} worm(s)
has the pluralization syntax on the word "worm" and thus would be matched to both Given I see 1 worm
and Given I see 4 worms
.
While the well know step parameter will be sufficient in most cases there are time when you would want to defined a custom parameter that might be used across more than or step definition or convert into a custom type.
The below custom parameter defines a regex that matches the words "red", "green" or "blue". The matches word is passed into the function which is then able to convert the string into a Color object. The name of the custom parameter is used to identity the parameter within the step text. In the below example the word "colour" is used. This is combined with the pre / post prefixes (which default to "{" and "}") to match to the custom parameter.
import 'package:gherkin/gherkin.dart';
enum Colour { red, green, blue }
class ColourParameter extends CustomParameter<Colour> {
ColourParameter()
: super("colour", RegExp(r"(red|green|blue)", caseSensitive: true), (c) {
switch (c.toLowerCase()) {
case "red":
return Colour.red;
case "green":
return Colour.green;
case "blue":
return Colour.blue;
}
});
}
The step definition would then use this custom parameter like so:
import 'package:gherkin/gherkin.dart';
import 'colour_parameter.dart';
StepDefinitionGeneric GivenIAddTheUsers() {
return given1<Colour>(
'I pick the colour {colour}',
(colour, _) async {
print("The picked colour was: '$colour'");
},
);
}
This customer parameter would be used like this: Given I pick the colour red
. When the step is invoked the word "red" would matched and passed to the custom parameter to convert it into a Colour
enum which is then finally passed to the step definition code as a Colour
object.
Tags are a great way of organizing your features and marking them with filterable information. Tags can be uses to filter the scenarios that are run. For instance you might have a set of smoke tests to run on every check-in as the full test suite is only ran once a day. You could also use an @ignore
or @todo
tag to ignore certain scenarios that might not be ready to run yet.
You can filter the scenarios by providing a tag expression to your configuration file. Tag expression are simple infix expressions such as:
@smoke
@smoke and @perf
@billing or @onboarding
@smoke and not @ignore
You can even us brackets to ensure the order of precedence
@smoke and not (@ignore or @todo)
You can use the usual boolean statement "and", "or", "not"
Also see https://docs.cucumber.io/cucumber/api/#tags
In order to allow features to be written in a number of languages, you can now write the keywords in languages other than English. To improve readability and flow, some languages may have more than one translation for any given keyword. See https://cucumber.io/docs/gherkin/reference/#overview for a list of supported languages.
You can set the default language of feature files in your project via the configuration setting see defaultLanguage
For example these two features are the same the keywords are just written in different languages. Note the
# language: de
on the second feature. English is the default language.
Feature: Calculator
Tests the addition of two numbers
Scenario Outline: Add two numbers
Given the numbers <number_one> and <number_two>
When they are added
Then the expected result is <result>
Examples:
| number_one | number_two | result |
| 12 | 5 | 17 |
| 20 | 5 | 25 |
| 20937 | 1 | 20938 |
| 20.937 | -1.937 | 19 |
# language: de
Funktionalität: Calculator
Tests the addition of two numbers
Szenariogrundriss: Add two numbers
Gegeben sei the numbers <number_one> and <number_two>
Wenn they are added
Dann the expected result is <result>
Beispiele:
| number_one | number_two | result |
| 12 | 5 | 17 |
| 20 | 5 | 25 |
| 20937 | 1 | 20938 |
| 20.937 | -1.937 | 19 |
Please note the language data is take and attributed to the cucumber project https://github.com/cucumber/cucumber/blob/master/gherkin/gherkin-languages.json
A hook is a point in the execution that custom code can be run. Hooks can be run at the below points in the test run.
- Before any tests run
- After all the tests have run
- Before each scenario
- After each scenario
To create a hook is easy. Just inherit from Hook
and override the method(s) that signifies the point in the process you want to run code at. Note that not all methods need to be override, just the points at which you want to run custom code.
import 'package:gherkin/gherkin.dart';
class HookExample extends Hook {
/// The priority to assign to this hook.
/// Higher priority gets run first so a priority of 10 is run before a priority of 2
@override
int get priority => 1;
/// Run before any scenario in a test run have executed
@override
Future<void> onBeforeRun(TestConfiguration config) async {
print("before run hook");
}
/// Run after all scenarios in a test run have completed
@override
Future<void> onAfterRun(TestConfiguration config) async {
print("after run hook");
}
/// Run before a scenario and it steps are executed
@override
Future<void> onBeforeScenario(
TestConfiguration config, String scenario) async {
print("running hook before scenario '$scenario'");
}
/// Run after a scenario has executed
@override
Future<void> onAfterScenario(
TestConfiguration config, String scenario) async {
print("running hook after scenario '$scenario'");
}
}
Finally ensure the hook is added to the hook collection in your configuration file.
import 'dart:async';
import 'package:flutter_gherkin/flutter_gherkin.dart';
import 'package:gherkin/gherkin.dart';
import 'hooks/hook_example.dart';
import 'steps/given_I_pick_a_colour_step.dart';
import 'steps/tap_button_n_times_step.dart';
Future<void> main() {
final config = FlutterTestConfiguration()
..features = [RegExp('features/*.*.feature')]
..reporters = [ProgressReporter()]
..hooks = [HookExample()]
..stepDefinitions = [TapButtonNTimesStep(), GivenIPickAColour()]
..restartAppBetweenScenarios = true
..targetAppPath = "test_driver/app.dart";
return GherkinRunner().execute(config);
}
A reporter is a class that is able to report on the progress of the test run. In it simplest form it could just print messages to the console or be used to tell a build server such as TeamCity of the progress of the test run. The library has a number of built in reporters.
StdoutReporter
- prints all messages from the test run to the console.ProgressReporter
- prints the result of each scenario and step to the console - colours the output.TestRunSummaryReporter
- prints the results and duration of the test run once the run has completed - colours the output.JsonReporter
- creates a JSON file with the results of the test run which can then be used by 'https://www.npmjs.com/package/cucumber-html-reporter.' to create a HTML report. You can pass in the file path of the json file to be created.FlutterDriverReporter
- prints the output from Flutter Driver. Flutter driver logs all messages to the stderr stream by default so most CI servers would mark the process as failed if anything is logged to the stderr stream (even if the Flutter driver logs are only info messages). This reporter ensures the log messages are output to the most appropriate stream depending on their log level.
You can create your own custom reporter by inheriting from the base Reporter
class and overriding the one or many of the methods to direct the output message. The Reporter
defines the following methods that can be overridden. All methods must return a Future<void>
and can be async.
onTestRunStarted
onTestRunFinished
onFeatureStarted
onFeatureFinished
onScenarioStarted
onScenarioFinished
onStepStarted
onStepFinished
onException
message
dispose
Once you have created your custom reporter don't forget to add it to thereporters
configuration file property.
Note: PR's of new reporters are always welcome.
By default to ensure your app is in a consistent state at the start of each test the app is shut-down and restarted. This behaviour can be turned off by setting the restartAppBetweenScenarios
flag in your configuration object. Although in more complex scenarios you might want to handle the app reset behaviour yourself; possibly via hooks.
You might additionally want to do some clean-up of your app after each test by implementing an onAfterScenario
hook.
For convenience the library defines a number of pre-defined steps so you can get going much quicker without having to implement lots of step classes. The pre-defined steps are:
Step Text | Description | Examples |
---|---|---|
I tap the {string} [button|element|label|icon|field|text|widget] | Taps the element with the provided key ( given by the first input parameter) | When I tap the "login" button , Then I tap the "save" icon |
I fill the {string} field with {string} | Fills the element with the provided key with the given value (given by the second input parameter) | When I fill the "email" field with "[email protected]" |
I expect the {string} to be {string} | Asserts that the element with the given key has the given string value | Then I expect the "cost" to be "£10.95" |
I (open|close) the drawer | Opens or closes the application default drawer | When I open the drawer , And I close the drawer |
I expect the [button|element|label|icon|field|text|widget] {string} to be present within {int} second(s) | Expects a widget with the given key to be present within n seconds | Then I expect the widget 'notification' to be present within 10 seconds , Then I expect the icon 'notification' to be present within 1 second |
I pause for {int} seconds | Pauses the test execution for the given seconds. Only use in debug scenarios or to inspect the state of the app | Then I pause for 20 seconds |
I restart the app | Restarts the app under test | Then I restart the app |
I tap the back button | Taps the page default back button widget | Then I tap the back button |
I expect a {string} that contains the text {string} to also contain the text {string} | Discovers a sibling based on its parent widget type and asserts that the both text string exist within the parent. | Then I expect a "Row" that contains the text "X" to also contain the text "Y" |
I swipe [down|left|right|up] by {int} pixels on the {string} | Swipes in a cardinal direction on a widget discovered by its key. | Then I swipe up by 800 pixels on the "login_screen" , Then I swipe left by 200 pixels on the "dismissible_list_item" |
I swipe [down|left|right|up] by {int} pixels on the on the [button|element|label|field|text|widget|dialog|popup] that contains the text {string} | Swipes in a cardinal direction on a widget discovered by its test. | Then I swipe left by 400 pixels on the widget that contains the text "Dismiss Me" |
I tap the [button|element|label|field|text|widget] that contains the text {string} within the {string} | Taps a widget that contains the text within another widget. If the text is not visible, the ancestor will be scrolled. | Then I tap the label that contains the text "Logout" within the "user_settings_list" |
I tap the [button|element|label|icon|field|text|widget] of type {string} | Taps a widget of type. | Then I tap the element of type "MaterialButton" , Then I tap the label of type "ListTile" , Then I tap the field of type "TextField" |
I tap the [button|element|label|icon|field|text|widget] of type {string} within the {string} | Taps a widget of type within another widget. | Then I tap the element of type "MaterialButton" within the "user_settings_list" |
I tap the [button|element|label|icon|field|text|widget] that contains the text {string} | Taps a widget that contains text. | Then I tap the label that contains the text "Logout" , Then I tap the button that contains the text "Sign up" , Then I tap the widget that contains the text "My User Profile" |
I expect the text {string} to be [present|absent] | Asserts the existence of text on the screen. | Then I expect the text "Logout" to be present , But I expect the text "Signup" to be absent |
I expect the text {string} to be [present|absent] within the {string} | Asserts the existence of text within a parent widget. | Then I expect the text "Logout" to be present within the "user_settings_list" , But I expect the text "Signup" to be absent within the "login_screen" |
I wait until the {string} is [present\absent] | Delays until a widget is present or absent. | Then I wait until the "login_loading_indicator" is absent , And I wait until the "login_screen" is present |
I wait until the [button|element|label|icon|field|text|widget] of type {string} is [present\absent] | Waits until a widget type is present or absent. | Then I wait until the element of type "ProgressIndicator" is absent , And I wait until the button of type "MaterialButton" is present |
I long press the {string} [button|element|label|icon|field|text|widget] | Scrolls into view and long presses the widget for 500 milliseconds. | When I long press "controlKey" button |
I long press the {string} [button|element|label|icon|field|text|widget] without scrolling it into view | Long presses the widget for 500 milliseconds. | When I long press "controlKey" button without scrolling it into view |
I long press the {string} [button|element|label|icon|field|text|widget] for {int} milliseconds | Scrolls into view and long presses the widget for the give number of milliseconds. | When I long press "controlKey" button without scrolling it into view for 1500 milliseconds |
For convenience the library provides a static FlutterDriverUtils
class that abstracts away some common Flutter driver functionality like tapping a button, getting and entering text, checking if an element is present or absent, waiting for a condition to become true. See lib/src/flutter/utils/driver_utils.dart.
In VSCode simply add add this block to your launch.json file (if you testable app is called app_test.dart
and within the test_driver
folder, if not replace that with the correct file path). Don't forget to put a break point somewhere!
{
"name": "Debug Features Tests",
"request": "launch",
"type": "dart",
"program": "test_driver/app_test.dart",
"flutterMode": "debug"
}
After which the file will most likely look like this
{
// Use IntelliSense to learn about possible attributes.
// Hover to view descriptions of existing attributes.
// For more information, visit: https://go.microsoft.com/fwlink/?linkid=830387
"version": "0.2.0",
"configurations": [
{
"name": "Flutter",
"request": "launch",
"type": "dart"
},
{
"name": "Debug Features Tests",
"request": "launch",
"type": "dart",
"program": "test_driver/app_test.dart",
"flutterMode": "debug"
}
]
}
Setting the configuration property runningAppProtocolEndpointUri
to the service protocol endpoint (found in stdout when an app has --verbose
logging turned on) will ensure that the existing app is connected to rather than starting a new instance of the app.
NOTE: ensure the app you are trying to connect to calls enableFlutterDriverExtension()
when it starts up otherwise the Flutter Driver will not be able to connect to it.
Also ensure that the --verbose
flag is set when starting the app to test, this will then log the service protocol endpoint out to the console which is the uri you will need to set this property to. It usually takes the form of Connecting to service protocol: http://127.0.0.1:51540/EM72VtRsUV0=/
so set the runningAppProtocolEndpointUri
to http://127.0.0.1:51540/EM72VtRsUV0=/
and then start the tests.
One way to configure your test environment is to run the app under test in a separate terminal and run the gherkin in a different terminal. With this approach you can hot reload the app by entering R
in the app terminal and run the steps repeatedly in the other terminal with out incurring the cost of the app start up.
For the app under test, in this case lib/main_test.dart
, it should look similar to this:
import 'package:flutter/material.dart';
import 'package:flutter_driver/driver_extension.dart';
void main() {
enableFlutterDriverExtension();
runApp();
When you start this from the terminal, run like this:
flutter run -t lib/main_test.dart --verbose
As stated above, with the --verbose
flag, you will want to find the service protocol endpoint.
You should see similar output as this:
.....
Connecting to service protocol: http://127.0.0.1:61658/RtsPT2zp_qs=/
.....
Flutter run key commands.
[ +2 ms] r Hot reload. 🔥🔥🔥
[ +1 ms] R Hot restart.
[ ] h Repeat this help message.
[ ] d Detach (terminate "flutter run" but leave application running).
[ ] c Clear the screen
[ ] q Quit (terminate the application on the device).
[ ] An Observatory debugger and profiler on iPhone 8 Plus is available at: http://127.0.0.1:61660/xgrsw_qQ9sI=/
[ ] Running with unsound null safety
[ ] For more information see https://dart.dev/null-safety/unsound-null-safety
To run the gherkin tests, first update the test_driver/app_test.dart
to something similar to this:
import 'dart:async';
import 'dart:io';
import 'package:flutter_gherkin/flutter_gherkin.dart';
import 'package:gherkin/gherkin.dart';
Future<void> main(List<String> args) async {
if (args.isEmpty) {
print('please pass in the uri');
exit(1);
}
final Iterable<StepDefinitionGeneric<World>> steps = [];
final config = FlutterTestConfiguration.DEFAULT(
steps,
featurePath: 'features//**.feature',
targetAppPath: 'test_driver/app.dart',
)
..restartAppBetweenScenarios = false
..targetAppWorkingDirectory = '../'
..runningAppProtocolEndpointUri = args[0];
return GherkinRunner().execute(config);
}
Start a new terminal and navigate to the test_driver
directory.
Notice the app_test.dart
expects a parameter. This is to ease the changing uri which will occur each time the app under test is started. If you use the R
command, the uri
does not change.
You can copy the uri
from the terminal window of the app under test.
Run the command dart app_test.dart <uri>
. As an example, the app under test has this line:
Connecting to service protocol: http://127.0.0.1:61658/RtsPT2zp_qs=/
so you would copy http://127.0.0.1:61658/RtsPT2zp_qs=/
and paste it as such:
dart app_test.dart http://127.0.0.1:59862/luEyFXvK9Qc=/
.
As you make changes in the app under test, just R
(reload). In the test window you can rerun the tests and update the Scenarios quickly and easily.