dev/devicelab/lib/tasks/build_test_task.dart - mirrors/flutter - Git at Google

 // Copyright 2014 The Flutter Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 import 'dart:io';

 import 'package:args/args.dart';

 import '../framework/devices.dart';
 import '../framework/task_result.dart';
 import '../framework/utils.dart';

 /// [Task] for defining build-test separation.
 ///
 /// Using this [Task] allows DeviceLab capacity to only be spent on the [test].
 abstract class BuildTestTask {
   BuildTestTask(this.args, {this.workingDirectory, this.runFlutterClean = true,}) {
     final ArgResults argResults = argParser.parse(args);
     applicationBinaryPath = argResults[kApplicationBinaryPathOption] as String?;
     buildOnly = argResults[kBuildOnlyFlag] as bool;
     testOnly = argResults[kTestOnlyFlag] as bool;
   }

   static const String kApplicationBinaryPathOption = 'application-binary-path';
   static const String kBuildOnlyFlag = 'build';
   static const String kTestOnlyFlag = 'test';

   final ArgParser argParser = ArgParser()
     ..addOption(kApplicationBinaryPathOption)
     ..addFlag(kBuildOnlyFlag)
     ..addFlag(kTestOnlyFlag);

   /// Args passed from the test runner via "--task-arg".
   final List<String> args;

   /// If true, skip [test].
   bool buildOnly = false;

   /// If true, skip [build].
   bool testOnly = false;

   /// Whether to run `flutter clean` before building the application under test.
   final bool runFlutterClean;

   /// Path to a built application to use in [test].
   ///
   /// If not given, will default to child's expected location.
   String? applicationBinaryPath;

   /// Where the test artifacts are stored, such as performance results.
   final Directory? workingDirectory;

   /// Run Flutter build to create [applicationBinaryPath].
   Future<void> build() async {
     await inDirectory<void>(workingDirectory, () async {
       if (runFlutterClean) {
         section('FLUTTER CLEAN');
         await flutter('clean');
       }
       section('BUILDING APPLICATION');
       await flutter('build', options: getBuildArgs(deviceOperatingSystem));
       copyArtifacts();
     });

   }

   /// Run Flutter drive test from [getTestArgs] against the application under test on the device.
   ///
   /// This assumes that [applicationBinaryPath] exists.
   Future<TaskResult> test() async {
     final Device device = await devices.workingDevice;
     await device.unlock();
     await inDirectory<void>(workingDirectory, () async {
       section('DRIVE START');
       await flutter('drive', options: getTestArgs(deviceOperatingSystem, device.deviceId));
     });

     return parseTaskResult();
   }

   /// Args passed to flutter build to build the application under test.
   List<String> getBuildArgs(DeviceOperatingSystem deviceOperatingSystem) => throw UnimplementedError('getBuildArgs is not implemented');

   /// Args passed to flutter drive to test the built application.
   List<String> getTestArgs(DeviceOperatingSystem deviceOperatingSystem, String deviceId) => throw UnimplementedError('getTestArgs is not implemented');

   /// Copy artifacts to [applicationBinaryPath] if specified.
   ///
   /// This is needed when running from CI, so that LUCI recipes know where to locate and upload artifacts to GCS.
   void copyArtifacts() => throw UnimplementedError('copyArtifacts is not implemented');

   /// Logic to construct [TaskResult] from this test's results.
   Future<TaskResult> parseTaskResult() => throw UnimplementedError('parseTaskResult is not implemented');

   /// Path to the built application under test.
   ///
   /// Tasks can override to support default values. Otherwise, it will default
   /// to needing to be passed as an argument in the test runner.
   String? getApplicationBinaryPath() => applicationBinaryPath;

   /// Run this task.
   ///
   /// Throws [Exception] when unnecessary arguments are passed.
   Future<TaskResult> call() async {
     if (buildOnly && testOnly) {
       throw Exception('Both build and test should not be passed. Pass only one.');
     }

     if (!testOnly) {
       await build();
     }

     if (buildOnly) {
       return TaskResult.buildOnly();
     }

     return test();
   }
 }
	// Copyright 2014 The Flutter Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	import 'dart:io';

	import 'package:args/args.dart';

	import '../framework/devices.dart';
	import '../framework/task_result.dart';
	import '../framework/utils.dart';

	/// [Task] for defining build-test separation.
	///
	/// Using this [Task] allows DeviceLab capacity to only be spent on the [test].
	abstract class BuildTestTask {
	BuildTestTask(this.args, {this.workingDirectory, this.runFlutterClean = true,}) {
	final ArgResults argResults = argParser.parse(args);
	applicationBinaryPath = argResults[kApplicationBinaryPathOption] as String?;
	buildOnly = argResults[kBuildOnlyFlag] as bool;
	testOnly = argResults[kTestOnlyFlag] as bool;
	}

	static const String kApplicationBinaryPathOption = 'application-binary-path';
	static const String kBuildOnlyFlag = 'build';
	static const String kTestOnlyFlag = 'test';

	final ArgParser argParser = ArgParser()
	..addOption(kApplicationBinaryPathOption)
	..addFlag(kBuildOnlyFlag)
	..addFlag(kTestOnlyFlag);

	/// Args passed from the test runner via "--task-arg".
	final List<String> args;

	/// If true, skip [test].
	bool buildOnly = false;

	/// If true, skip [build].
	bool testOnly = false;

	/// Whether to run `flutter clean` before building the application under test.
	final bool runFlutterClean;

	/// Path to a built application to use in [test].
	///
	/// If not given, will default to child's expected location.
	String? applicationBinaryPath;

	/// Where the test artifacts are stored, such as performance results.
	final Directory? workingDirectory;

	/// Run Flutter build to create [applicationBinaryPath].
	Future<void> build() async {
	await inDirectory<void>(workingDirectory, () async {
	if (runFlutterClean) {
	section('FLUTTER CLEAN');
	await flutter('clean');
	}
	section('BUILDING APPLICATION');
	await flutter('build', options: getBuildArgs(deviceOperatingSystem));
	copyArtifacts();
	});

	}

	/// Run Flutter drive test from [getTestArgs] against the application under test on the device.
	///
	/// This assumes that [applicationBinaryPath] exists.
	Future<TaskResult> test() async {
	final Device device = await devices.workingDevice;
	await device.unlock();
	await inDirectory<void>(workingDirectory, () async {
	section('DRIVE START');
	await flutter('drive', options: getTestArgs(deviceOperatingSystem, device.deviceId));
	});

	return parseTaskResult();
	}

	/// Args passed to flutter build to build the application under test.
	List<String> getBuildArgs(DeviceOperatingSystem deviceOperatingSystem) => throw UnimplementedError('getBuildArgs is not implemented');

	/// Args passed to flutter drive to test the built application.
	List<String> getTestArgs(DeviceOperatingSystem deviceOperatingSystem, String deviceId) => throw UnimplementedError('getTestArgs is not implemented');

	/// Copy artifacts to [applicationBinaryPath] if specified.
	///
	/// This is needed when running from CI, so that LUCI recipes know where to locate and upload artifacts to GCS.
	void copyArtifacts() => throw UnimplementedError('copyArtifacts is not implemented');

	/// Logic to construct [TaskResult] from this test's results.
	Future<TaskResult> parseTaskResult() => throw UnimplementedError('parseTaskResult is not implemented');

	/// Path to the built application under test.
	///
	/// Tasks can override to support default values. Otherwise, it will default
	/// to needing to be passed as an argument in the test runner.
	String? getApplicationBinaryPath() => applicationBinaryPath;

	/// Run this task.
	///
	/// Throws [Exception] when unnecessary arguments are passed.
	Future<TaskResult> call() async {
	if (buildOnly && testOnly) {
	throw Exception('Both build and test should not be passed. Pass only one.');
	}

	if (!testOnly) {
	await build();
	}

	if (buildOnly) {
	return TaskResult.buildOnly();
	}

	return test();
	}
	}