packages/flutter_tools/lib/src/commands/assemble.dart - external/github.com/flutter/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 'package:meta/meta.dart';

 import '../base/common.dart';
 import '../base/file_system.dart';
 import '../build_info.dart';
 import '../build_system/build_system.dart';
 import '../build_system/depfile.dart';
 import '../build_system/targets/android.dart';
 import '../build_system/targets/assets.dart';
 import '../build_system/targets/common.dart';
 import '../build_system/targets/ios.dart';
 import '../build_system/targets/linux.dart';
 import '../build_system/targets/macos.dart';
 import '../build_system/targets/web.dart';
 import '../build_system/targets/windows.dart';
 import '../cache.dart';
 import '../convert.dart';
 import '../globals.dart' as globals;
 import '../project.dart';
 import '../reporting/reporting.dart';
 import '../runner/flutter_command.dart';

 /// All currently implemented targets.
 const List<Target> _kDefaultTargets = <Target>[
   // Shared targets
   CopyAssets(),
   KernelSnapshot(),
   AotElfProfile(TargetPlatform.android_arm),
   AotElfRelease(TargetPlatform.android_arm),
   AotAssemblyProfile(),
   AotAssemblyRelease(),
   // macOS targets
   DebugMacOSFramework(),
   DebugMacOSBundleFlutterAssets(),
   ProfileMacOSBundleFlutterAssets(),
   ReleaseMacOSBundleFlutterAssets(),
   // Linux targets
   DebugBundleLinuxAssets(),
   ProfileBundleLinuxAssets(),
   ReleaseBundleLinuxAssets(),
   // Web targets
   WebServiceWorker(),
   ReleaseAndroidApplication(),
   // This is a one-off rule for bundle and aot compat.
   CopyFlutterBundle(),
   // Android targets,
   DebugAndroidApplication(),
   ProfileAndroidApplication(),
   // Android ABI specific AOT rules.
   androidArmProfileBundle,
   androidArm64ProfileBundle,
   androidx64ProfileBundle,
   androidArmReleaseBundle,
   androidArm64ReleaseBundle,
   androidx64ReleaseBundle,
   // iOS targets
   DebugIosApplicationBundle(),
   ProfileIosApplicationBundle(),
   ReleaseIosApplicationBundle(),
   // Windows targets
   UnpackWindows(),
   DebugBundleWindowsAssets(),
   ProfileBundleWindowsAssets(),
   ReleaseBundleWindowsAssets(),
 ];

 /// Assemble provides a low level API to interact with the flutter tool build
 /// system.
 class AssembleCommand extends FlutterCommand {
   AssembleCommand() {
     argParser.addMultiOption(
       'define',
       abbr: 'd',
       help: 'Allows passing configuration to a target with --define=target=key=value.',
     );
     argParser.addOption(
       'performance-measurement-file',
       help: 'Output individual target performance to a JSON file.'
     );
     argParser.addMultiOption(
       'input',
       abbr: 'i',
       help: 'Allows passing additional inputs with --input=key=value. Unlike '
       'defines, additional inputs do not generate a new configuration, instead '
       'they are treated as dependencies of the targets that use them.'
     );
     argParser.addOption('depfile', help: 'A file path where a depfile will be written. '
       'This contains all build inputs and outputs in a make style syntax'
     );
     argParser.addOption('build-inputs', help: 'A file path where a newline '
         'separated file containing all inputs used will be written after a build.'
         ' This file is not included as a build input or output. This file is not'
         ' written if the build fails for any reason.');
     argParser.addOption('build-outputs', help: 'A file path where a newline '
         'separated file containing all outputs used will be written after a build.'
         ' This file is not included as a build input or output. This file is not'
         ' written if the build fails for any reason.');
     argParser.addOption('output', abbr: 'o', help: 'A directory where output '
         'files will be written. Must be either absolute or relative from the '
         'root of the current Flutter project.',
     );
     argParser.addOption(kExtraGenSnapshotOptions);
     argParser.addOption(kExtraFrontEndOptions);
     argParser.addOption(kDartDefines);
     argParser.addOption(
       'resource-pool-size',
       help: 'The maximum number of concurrent tasks the build system will run.',
     );
   }

   @override
   String get description => 'Assemble and build Flutter resources.';

   @override
   String get name => 'assemble';

   @override
   Future<Map<CustomDimensions, String>> get usageValues async {
     final FlutterProject flutterProject = FlutterProject.current();
     if (flutterProject == null) {
       return const <CustomDimensions, String>{};
     }
     try {
       final Environment localEnvironment = createEnvironment();
       return <CustomDimensions, String>{
         CustomDimensions.commandBuildBundleTargetPlatform: localEnvironment.defines['TargetPlatform'],
         CustomDimensions.commandBuildBundleIsModule: '${flutterProject.isModule}',
       };
     } on Exception {
       // We've failed to send usage.
     }
     return const <CustomDimensions, String>{};
   }

   /// The target(s) we are building.
   List<Target> createTargets() {
     if (argResults.rest.isEmpty) {
       throwToolExit('missing target name for flutter assemble.');
     }
     final String name = argResults.rest.first;
     final Map<String, Target> targetMap = <String, Target>{
       for (final Target target in _kDefaultTargets)
         target.name: target
     };
     final List<Target> results = <Target>[
       for (final String targetName in argResults.rest)
         if (targetMap.containsKey(targetName))
           targetMap[targetName]
     ];
     if (results.isEmpty) {
       throwToolExit('No target named "$name" defined.');
     }
     return results;
   }

   /// The environmental configuration for a build invocation.
   Environment createEnvironment() {
     final FlutterProject flutterProject = FlutterProject.current();
     String output = stringArg('output');
     if (output == null) {
       throwToolExit('--output directory is required for assemble.');
     }
     // If path is relative, make it absolute from flutter project.
     if (globals.fs.path.isRelative(output)) {
       output = globals.fs.path.join(flutterProject.directory.path, output);
     }
     final Environment result = Environment(
       outputDir: globals.fs.directory(output),
       buildDir: flutterProject.directory
           .childDirectory('.dart_tool')
           .childDirectory('flutter_build'),
       projectDir: flutterProject.directory,
       defines: _parseDefines(stringsArg('define')),
       inputs: _parseDefines(stringsArg('input')),
       cacheDir: globals.cache.getRoot(),
       flutterRootDir: globals.fs.directory(Cache.flutterRoot),
       artifacts: globals.artifacts,
       fileSystem: globals.fs,
       logger: globals.logger,
       processManager: globals.processManager,
       engineVersion: globals.artifacts.isLocalEngine
         ? null
         : globals.flutterVersion.engineRevision
     );
     return result;
   }

   Map<String, String> _parseDefines(List<String> values) {
     final Map<String, String> results = <String, String>{};
     for (final String chunk in values) {
       final int indexEquals = chunk.indexOf('=');
       if (indexEquals == -1) {
         throwToolExit('Improperly formatted define flag: $chunk');
       }
       final String key = chunk.substring(0, indexEquals);
       final String value = chunk.substring(indexEquals + 1);
       results[key] = value;
     }
     // Workaround for extraGenSnapshot formatting.
     if (argResults.wasParsed(kExtraGenSnapshotOptions)) {
       results[kExtraGenSnapshotOptions] = argResults[kExtraGenSnapshotOptions] as String;
     }
     if (argResults.wasParsed(kDartDefines)) {
       results[kDartDefines] = argResults[kDartDefines] as String;
     }
     if (argResults.wasParsed(kExtraFrontEndOptions)) {
       results[kExtraFrontEndOptions] = argResults[kExtraFrontEndOptions] as String;
     }
     return results;
   }

   @override
   Future<FlutterCommandResult> runCommand() async {
     final List<Target> targets = createTargets();
     final Target target = targets.length == 1 ? targets.single : _CompositeTarget(targets);
     final BuildResult result = await globals.buildSystem.build(
       target,
       createEnvironment(),
       buildSystemConfig: BuildSystemConfig(
         resourcePoolSize: argResults.wasParsed('resource-pool-size')
           ? int.tryParse(stringArg('resource-pool-size'))
           : null,
         ),
       );
     if (!result.success) {
       for (final ExceptionMeasurement measurement in result.exceptions.values) {
         if (measurement.fatal || globals.logger.isVerbose) {
           globals.printError('Target ${measurement.target} failed: ${measurement.exception}',
             stackTrace: measurement.stackTrace
           );
         }
       }
       throwToolExit('');
     }
     globals.printTrace('build succeeded.');
     if (argResults.wasParsed('build-inputs')) {
       writeListIfChanged(result.inputFiles, stringArg('build-inputs'));
     }
     if (argResults.wasParsed('build-outputs')) {
       writeListIfChanged(result.outputFiles, stringArg('build-outputs'));
     }
     if (argResults.wasParsed('performance-measurement-file')) {
       final File outFile = globals.fs.file(argResults['performance-measurement-file']);
       writePerformanceData(result.performance.values, outFile);
     }
     if (argResults.wasParsed('depfile')) {
       final File depfileFile = globals.fs.file(stringArg('depfile'));
       final Depfile depfile = Depfile(result.inputFiles, result.outputFiles);
       final DepfileService depfileService = DepfileService(
         fileSystem: globals.fs,
         logger: globals.logger,
       );
       depfileService.writeToFile(depfile, globals.fs.file(depfileFile));
     }
     return FlutterCommandResult.success();
   }
 }

 @visibleForTesting
 void writeListIfChanged(List<File> files, String path) {
   final File file = globals.fs.file(path);
   final StringBuffer buffer = StringBuffer();
   // These files are already sorted.
   for (final File file in files) {
     buffer.writeln(file.path);
   }
   final String newContents = buffer.toString();
   if (!file.existsSync()) {
     file.writeAsStringSync(newContents);
   }
   final String currentContents = file.readAsStringSync();
   if (currentContents != newContents) {
     file.writeAsStringSync(newContents);
   }
 }

 /// Output performance measurement data in [outFile].
 @visibleForTesting
 void writePerformanceData(Iterable<PerformanceMeasurement> measurements, File outFile) {
   final Map<String, Object> jsonData = <String, Object>{
     'targets': <Object>[
       for (final PerformanceMeasurement measurement in measurements)
         <String, Object>{
           'name': measurement.analyticsName,
           'skipped': measurement.skipped,
           'succeeded': measurement.succeeded,
           'elapsedMilliseconds': measurement.elapsedMilliseconds,
         }
     ]
   };
   if (!outFile.parent.existsSync()) {
     outFile.parent.createSync(recursive: true);
   }
   outFile.writeAsStringSync(json.encode(jsonData));
 }

 class _CompositeTarget extends Target {
   _CompositeTarget(this.dependencies);

   @override
   final List<Target> dependencies;

   @override
   String get name => '_composite';

   @override
   Future<void> build(Environment environment) async { }

   @override
   List<Source> get inputs => <Source>[];

   @override
   List<Source> get outputs => <Source>[];
 }
	// 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 'package:meta/meta.dart';

	import '../base/common.dart';
	import '../base/file_system.dart';
	import '../build_info.dart';
	import '../build_system/build_system.dart';
	import '../build_system/depfile.dart';
	import '../build_system/targets/android.dart';
	import '../build_system/targets/assets.dart';
	import '../build_system/targets/common.dart';
	import '../build_system/targets/ios.dart';
	import '../build_system/targets/linux.dart';
	import '../build_system/targets/macos.dart';
	import '../build_system/targets/web.dart';
	import '../build_system/targets/windows.dart';
	import '../cache.dart';
	import '../convert.dart';
	import '../globals.dart' as globals;
	import '../project.dart';
	import '../reporting/reporting.dart';
	import '../runner/flutter_command.dart';

	/// All currently implemented targets.
	const List<Target> _kDefaultTargets = <Target>[
	// Shared targets
	CopyAssets(),
	KernelSnapshot(),
	AotElfProfile(TargetPlatform.android_arm),
	AotElfRelease(TargetPlatform.android_arm),
	AotAssemblyProfile(),
	AotAssemblyRelease(),
	// macOS targets
	DebugMacOSFramework(),
	DebugMacOSBundleFlutterAssets(),
	ProfileMacOSBundleFlutterAssets(),
	ReleaseMacOSBundleFlutterAssets(),
	// Linux targets
	DebugBundleLinuxAssets(),
	ProfileBundleLinuxAssets(),
	ReleaseBundleLinuxAssets(),
	// Web targets
	WebServiceWorker(),
	ReleaseAndroidApplication(),
	// This is a one-off rule for bundle and aot compat.
	CopyFlutterBundle(),
	// Android targets,
	DebugAndroidApplication(),
	ProfileAndroidApplication(),
	// Android ABI specific AOT rules.
	androidArmProfileBundle,
	androidArm64ProfileBundle,
	androidx64ProfileBundle,
	androidArmReleaseBundle,
	androidArm64ReleaseBundle,
	androidx64ReleaseBundle,
	// iOS targets
	DebugIosApplicationBundle(),
	ProfileIosApplicationBundle(),
	ReleaseIosApplicationBundle(),
	// Windows targets
	UnpackWindows(),
	DebugBundleWindowsAssets(),
	ProfileBundleWindowsAssets(),
	ReleaseBundleWindowsAssets(),
	];

	/// Assemble provides a low level API to interact with the flutter tool build
	/// system.
	class AssembleCommand extends FlutterCommand {
	AssembleCommand() {
	argParser.addMultiOption(
	'define',
	abbr: 'd',
	help: 'Allows passing configuration to a target with --define=target=key=value.',
	);
	argParser.addOption(
	'performance-measurement-file',
	help: 'Output individual target performance to a JSON file.'
	);
	argParser.addMultiOption(
	'input',
	abbr: 'i',
	help: 'Allows passing additional inputs with --input=key=value. Unlike '
	'defines, additional inputs do not generate a new configuration, instead '
	'they are treated as dependencies of the targets that use them.'
	);
	argParser.addOption('depfile', help: 'A file path where a depfile will be written. '
	'This contains all build inputs and outputs in a make style syntax'
	);
	argParser.addOption('build-inputs', help: 'A file path where a newline '
	'separated file containing all inputs used will be written after a build.'
	' This file is not included as a build input or output. This file is not'
	' written if the build fails for any reason.');
	argParser.addOption('build-outputs', help: 'A file path where a newline '
	'separated file containing all outputs used will be written after a build.'
	' This file is not included as a build input or output. This file is not'
	' written if the build fails for any reason.');
	argParser.addOption('output', abbr: 'o', help: 'A directory where output '
	'files will be written. Must be either absolute or relative from the '
	'root of the current Flutter project.',
	);
	argParser.addOption(kExtraGenSnapshotOptions);
	argParser.addOption(kExtraFrontEndOptions);
	argParser.addOption(kDartDefines);
	argParser.addOption(
	'resource-pool-size',
	help: 'The maximum number of concurrent tasks the build system will run.',
	);
	}

	@override
	String get description => 'Assemble and build Flutter resources.';

	@override
	String get name => 'assemble';

	@override
	Future<Map<CustomDimensions, String>> get usageValues async {
	final FlutterProject flutterProject = FlutterProject.current();
	if (flutterProject == null) {
	return const <CustomDimensions, String>{};
	}
	try {
	final Environment localEnvironment = createEnvironment();
	return <CustomDimensions, String>{
	CustomDimensions.commandBuildBundleTargetPlatform: localEnvironment.defines['TargetPlatform'],
	CustomDimensions.commandBuildBundleIsModule: '${flutterProject.isModule}',
	};
	} on Exception {
	// We've failed to send usage.
	}
	return const <CustomDimensions, String>{};
	}

	/// The target(s) we are building.
	List<Target> createTargets() {
	if (argResults.rest.isEmpty) {
	throwToolExit('missing target name for flutter assemble.');
	}
	final String name = argResults.rest.first;
	final Map<String, Target> targetMap = <String, Target>{
	for (final Target target in _kDefaultTargets)
	target.name: target
	};
	final List<Target> results = <Target>[
	for (final String targetName in argResults.rest)
	if (targetMap.containsKey(targetName))
	targetMap[targetName]
	];
	if (results.isEmpty) {
	throwToolExit('No target named "$name" defined.');
	}
	return results;
	}

	/// The environmental configuration for a build invocation.
	Environment createEnvironment() {
	final FlutterProject flutterProject = FlutterProject.current();
	String output = stringArg('output');
	if (output == null) {
	throwToolExit('--output directory is required for assemble.');
	}
	// If path is relative, make it absolute from flutter project.
	if (globals.fs.path.isRelative(output)) {
	output = globals.fs.path.join(flutterProject.directory.path, output);
	}
	final Environment result = Environment(
	outputDir: globals.fs.directory(output),
	buildDir: flutterProject.directory
	.childDirectory('.dart_tool')
	.childDirectory('flutter_build'),
	projectDir: flutterProject.directory,
	defines: _parseDefines(stringsArg('define')),
	inputs: _parseDefines(stringsArg('input')),
	cacheDir: globals.cache.getRoot(),
	flutterRootDir: globals.fs.directory(Cache.flutterRoot),
	artifacts: globals.artifacts,
	fileSystem: globals.fs,
	logger: globals.logger,
	processManager: globals.processManager,
	engineVersion: globals.artifacts.isLocalEngine
	? null
	: globals.flutterVersion.engineRevision
	);
	return result;
	}

	Map<String, String> _parseDefines(List<String> values) {
	final Map<String, String> results = <String, String>{};
	for (final String chunk in values) {
	final int indexEquals = chunk.indexOf('=');
	if (indexEquals == -1) {
	throwToolExit('Improperly formatted define flag: $chunk');
	}
	final String key = chunk.substring(0, indexEquals);
	final String value = chunk.substring(indexEquals + 1);
	results[key] = value;
	}
	// Workaround for extraGenSnapshot formatting.
	if (argResults.wasParsed(kExtraGenSnapshotOptions)) {
	results[kExtraGenSnapshotOptions] = argResults[kExtraGenSnapshotOptions] as String;
	}
	if (argResults.wasParsed(kDartDefines)) {
	results[kDartDefines] = argResults[kDartDefines] as String;
	}
	if (argResults.wasParsed(kExtraFrontEndOptions)) {
	results[kExtraFrontEndOptions] = argResults[kExtraFrontEndOptions] as String;
	}
	return results;
	}

	@override
	Future<FlutterCommandResult> runCommand() async {
	final List<Target> targets = createTargets();
	final Target target = targets.length == 1 ? targets.single : _CompositeTarget(targets);
	final BuildResult result = await globals.buildSystem.build(
	target,
	createEnvironment(),
	buildSystemConfig: BuildSystemConfig(
	resourcePoolSize: argResults.wasParsed('resource-pool-size')
	? int.tryParse(stringArg('resource-pool-size'))
	: null,
	),
	);
	if (!result.success) {
	for (final ExceptionMeasurement measurement in result.exceptions.values) {
	if (measurement.fatal \|\| globals.logger.isVerbose) {
	globals.printError('Target ${measurement.target} failed: ${measurement.exception}',
	stackTrace: measurement.stackTrace
	);
	}
	}
	throwToolExit('');
	}
	globals.printTrace('build succeeded.');
	if (argResults.wasParsed('build-inputs')) {
	writeListIfChanged(result.inputFiles, stringArg('build-inputs'));
	}
	if (argResults.wasParsed('build-outputs')) {
	writeListIfChanged(result.outputFiles, stringArg('build-outputs'));
	}
	if (argResults.wasParsed('performance-measurement-file')) {
	final File outFile = globals.fs.file(argResults['performance-measurement-file']);
	writePerformanceData(result.performance.values, outFile);
	}
	if (argResults.wasParsed('depfile')) {
	final File depfileFile = globals.fs.file(stringArg('depfile'));
	final Depfile depfile = Depfile(result.inputFiles, result.outputFiles);
	final DepfileService depfileService = DepfileService(
	fileSystem: globals.fs,
	logger: globals.logger,
	);
	depfileService.writeToFile(depfile, globals.fs.file(depfileFile));
	}
	return FlutterCommandResult.success();
	}
	}

	@visibleForTesting
	void writeListIfChanged(List<File> files, String path) {
	final File file = globals.fs.file(path);
	final StringBuffer buffer = StringBuffer();
	// These files are already sorted.
	for (final File file in files) {
	buffer.writeln(file.path);
	}
	final String newContents = buffer.toString();
	if (!file.existsSync()) {
	file.writeAsStringSync(newContents);
	}
	final String currentContents = file.readAsStringSync();
	if (currentContents != newContents) {
	file.writeAsStringSync(newContents);
	}
	}

	/// Output performance measurement data in [outFile].
	@visibleForTesting
	void writePerformanceData(Iterable<PerformanceMeasurement> measurements, File outFile) {
	final Map<String, Object> jsonData = <String, Object>{
	'targets': <Object>[
	for (final PerformanceMeasurement measurement in measurements)
	<String, Object>{
	'name': measurement.analyticsName,
	'skipped': measurement.skipped,
	'succeeded': measurement.succeeded,
	'elapsedMilliseconds': measurement.elapsedMilliseconds,
	}
	]
	};
	if (!outFile.parent.existsSync()) {
	outFile.parent.createSync(recursive: true);
	}
	outFile.writeAsStringSync(json.encode(jsonData));
	}

	class _CompositeTarget extends Target {
	_CompositeTarget(this.dependencies);

	@override
	final List<Target> dependencies;

	@override
	String get name => '_composite';

	@override
	Future<void> build(Environment environment) async { }

	@override
	List<Source> get inputs => <Source>[];

	@override
	List<Source> get outputs => <Source>[];
	}