packages/flutter_tools/lib/src/codegen.dart - mirrors/flutter - Git at Google

 // Copyright 2019 The Chromium 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 'artifacts.dart';
 import 'base/context.dart';
 import 'base/file_system.dart';
 import 'base/platform.dart';
 import 'compile.dart';
 import 'dart/package_map.dart';
 import 'globals.dart';
 import 'project.dart';

 // Arbitrarily chosen multi-root file scheme. This is used to configure the
 // frontend_server to resolve a package uri to multiple filesystem directories.
 // In this case, the source directory and a generated directory.
 const String kMultiRootScheme = 'org-dartlang-app';

 /// The [CodeGenerator] instance.
 ///
 /// If [experimentalBuildEnabled] is false, this will contain an unsupported
 /// implementation.
 CodeGenerator get codeGenerator => context.get<CodeGenerator>();

 /// A wrapper for a build_runner process which delegates to a generated
 /// build script.
 ///
 /// This is only enabled if [experimentalBuildEnabled] is true, and only for
 /// external flutter users.
 abstract class CodeGenerator {
   const CodeGenerator();

   /// Starts a persistent code generting daemon.
   ///
   /// The defines of the daemon command are the arguments required in the
   /// flutter_build kernel builder.
   Future<CodegenDaemon> daemon(FlutterProject flutterProject);

   // Generates a synthetic package under .dart_tool/flutter_tool which is in turn
   // used to generate a build script.
   Future<void> generateBuildScript(FlutterProject flutterProject);

   /// Create generated packages file which adds a multi-root scheme to the user's
   /// project directory. Currently we only replace the root package with a multiroot
   /// scheme. To support codegen on arbitrary packages we would need to do
   /// this for each dependency.
   void updatePackages(FlutterProject flutterProject) {
     final String oldPackagesContents = fs.file(PackageMap.globalPackagesPath).readAsStringSync();
     final String appName = flutterProject.manifest.appName;
     final String newPackagesContents = oldPackagesContents.replaceFirst('$appName:lib/', '$appName:$kMultiRootScheme:/');
     final String generatedPackagesPath = fs.path.setExtension(PackageMap.globalPackagesPath, '.generated');
     fs.file(generatedPackagesPath).writeAsStringSync(newPackagesContents);
   }
 }

 class UnsupportedCodeGenerator extends CodeGenerator {
   const UnsupportedCodeGenerator();

   @override
   Future<void> generateBuildScript(FlutterProject flutterProject) {
     throw UnsupportedError('build_runner is not currently supported.');
   }

   @override
   Future<CodegenDaemon> daemon(FlutterProject flutterProject) {
     throw UnsupportedError('build_runner is not currently supported.');
   }
 }

 abstract class CodegenDaemon {
   /// Whether the previously enqueued build was successful.
   Stream<CodegenStatus> get buildResults;

   CodegenStatus get lastStatus;

   /// Starts a new build.
   void startBuild();
 }

 /// An implementation of the [KernelCompiler] which delegates to build_runner.
 ///
 /// Only a subset of the arguments provided to the [KernelCompiler] are
 /// supported here. Using the build pipeline implies a fixed multiroot
 /// filesystem and requires a pubspec.
 ///
 /// This is only safe to use if [experimentalBuildEnabled] is true.
 class CodeGeneratingKernelCompiler implements KernelCompiler {
   const CodeGeneratingKernelCompiler();

   static const KernelCompiler _delegate = KernelCompiler();

   @override
   Future<CompilerOutput> compile({
     String mainPath,
     String outputFilePath,
     bool linkPlatformKernelIn = false,
     bool aot = false,
     bool trackWidgetCreation,
     List<String> extraFrontEndOptions,
     bool targetProductVm = false,
     // These arguments are currently unused.
     String sdkRoot,
     String packagesPath,
     List<String> fileSystemRoots,
     String fileSystemScheme,
     String depFilePath,
     TargetModel targetModel = TargetModel.flutter,
     String initializeFromDill,
     String platformDill,
   }) async {
     if (fileSystemRoots != null || fileSystemScheme != null || depFilePath != null || targetModel != null || sdkRoot != null || packagesPath != null) {
       printTrace('fileSystemRoots, fileSystemScheme, depFilePath, targetModel,'
         'sdkRoot, packagesPath are not supported when using the experimental '
         'build* pipeline');
     }
     final FlutterProject flutterProject = FlutterProject.current();
     codeGenerator.updatePackages(flutterProject);
     final CodegenDaemon codegenDaemon = await codeGenerator.daemon(flutterProject);
     codegenDaemon.startBuild();
     await for (CodegenStatus codegenStatus in codegenDaemon.buildResults) {
       if (codegenStatus == CodegenStatus.Failed) {
         printError('Code generation failed, build may have compile errors.');
         break;
       }
       if (codegenStatus == CodegenStatus.Succeeded) {
         break;
       }
     }
     return _delegate.compile(
       mainPath: mainPath,
       outputFilePath: outputFilePath,
       linkPlatformKernelIn: linkPlatformKernelIn,
       aot: aot,
       trackWidgetCreation: trackWidgetCreation,
       extraFrontEndOptions: extraFrontEndOptions,
       targetProductVm: targetProductVm,
       sdkRoot: sdkRoot,
       packagesPath: PackageMap.globalGeneratedPackagesPath,
       fileSystemRoots: <String>[
         fs.path.join(flutterProject.generated.path, 'lib${platform.pathSeparator}'),
         fs.path.join(flutterProject.directory.path, 'lib${platform.pathSeparator}'),
       ],
       fileSystemScheme: kMultiRootScheme,
       depFilePath: depFilePath,
       targetModel: targetModel,
       initializeFromDill: initializeFromDill,
     );
   }
 }

 /// An implementation of a [ResidentCompiler] which runs a [BuildRunner] before
 /// talking to the CFE.
 class CodeGeneratingResidentCompiler implements ResidentCompiler {
   CodeGeneratingResidentCompiler._(this._residentCompiler, this._codegenDaemon, this._flutterProject);

   /// Creates a new [ResidentCompiler] and configures a [BuildDaemonClient] to
   /// run builds.
   ///
   /// If `runCold` is true, then no codegen daemon will be created. Instead the
   /// compiler will only be initialized with the correct configuration for
   /// codegen mode.
   static Future<ResidentCompiler> create({
     @required FlutterProject flutterProject,
     bool trackWidgetCreation = false,
     CompilerMessageConsumer compilerMessageConsumer = printError,
     bool unsafePackageSerialization = false,
     String outputPath,
     String initializeFromDill,
     bool runCold = false,
   }) async {
     codeGenerator.updatePackages(flutterProject);
     final ResidentCompiler residentCompiler = ResidentCompiler(
       artifacts.getArtifactPath(Artifact.flutterPatchedSdkPath),
       trackWidgetCreation: trackWidgetCreation,
       packagesPath: PackageMap.globalGeneratedPackagesPath,
       fileSystemRoots: <String>[
         fs.path.join(flutterProject.generated.path, 'lib${platform.pathSeparator}'),
         fs.path.join(flutterProject.directory.path, 'lib${platform.pathSeparator}'),
       ],
       fileSystemScheme: kMultiRootScheme,
       targetModel: TargetModel.flutter,
       unsafePackageSerialization: unsafePackageSerialization,
       initializeFromDill: initializeFromDill,
     );
     if (runCold) {
       return residentCompiler;
     }
     final CodegenDaemon codegenDaemon = await codeGenerator.daemon(flutterProject);
     codegenDaemon.startBuild();
     final CodegenStatus status = await codegenDaemon.buildResults.firstWhere((CodegenStatus status) {
       return status == CodegenStatus.Succeeded || status == CodegenStatus.Failed;
     });
     if (status == CodegenStatus.Failed) {
       printError('Code generation failed, build may have compile errors.');
     }
     return CodeGeneratingResidentCompiler._(residentCompiler, codegenDaemon, flutterProject);
   }

   final ResidentCompiler _residentCompiler;
   final CodegenDaemon _codegenDaemon;
   final FlutterProject _flutterProject;

   @override
   void accept() {
     _residentCompiler.accept();
   }

   @override
   Future<CompilerOutput> compileExpression(String expression, List<String> definitions, List<String> typeDefinitions, String libraryUri, String klass, bool isStatic) {
     return _residentCompiler.compileExpression(expression, definitions, typeDefinitions, libraryUri, klass, isStatic);
   }

   @override
   Future<CompilerOutput> recompile(String mainPath, List<Uri> invalidatedFiles, {String outputPath, String packagesFilePath}) async {
     if (_codegenDaemon.lastStatus != CodegenStatus.Succeeded && _codegenDaemon.lastStatus != CodegenStatus.Failed) {
       await _codegenDaemon.buildResults.firstWhere((CodegenStatus status) {
         return status == CodegenStatus.Succeeded || status == CodegenStatus.Failed;
       });
     }
     if (_codegenDaemon.lastStatus == CodegenStatus.Failed) {
       printError('Code generation failed, build may have compile errors.');
     }
     // Update the generated packages file if the original packages file has changes.
     if (fs.statSync(PackageMap.globalPackagesPath).modified.millisecondsSinceEpoch >
         fs.statSync(PackageMap.globalGeneratedPackagesPath).modified.millisecondsSinceEpoch) {
       codeGenerator.updatePackages(_flutterProject);
       invalidatedFiles.add(fs.file(PackageMap.globalGeneratedPackagesPath).uri);
     }
     return _residentCompiler.recompile(
       mainPath,
       invalidatedFiles,
       outputPath: outputPath,
       packagesFilePath: PackageMap.globalGeneratedPackagesPath,
     );
   }

   @override
   Future<CompilerOutput> reject() {
     return _residentCompiler.reject();
   }

   @override
   void reset() {
     _residentCompiler.reset();
   }

   @override
   Future<void> shutdown() {
     return _residentCompiler.shutdown();
   }
 }

 /// The current status of a codegen build.
 enum CodegenStatus {
   /// The build has started running.
   ///
   /// If this is the current status when running a hot reload, an additional build does
   /// not need to be started.
   Started,
   /// The build succeeded.
   Succeeded,
   /// The build failed.
   Failed
 }
	// Copyright 2019 The Chromium 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 'artifacts.dart';
	import 'base/context.dart';
	import 'base/file_system.dart';
	import 'base/platform.dart';
	import 'compile.dart';
	import 'dart/package_map.dart';
	import 'globals.dart';
	import 'project.dart';

	// Arbitrarily chosen multi-root file scheme. This is used to configure the
	// frontend_server to resolve a package uri to multiple filesystem directories.
	// In this case, the source directory and a generated directory.
	const String kMultiRootScheme = 'org-dartlang-app';

	/// The [CodeGenerator] instance.
	///
	/// If [experimentalBuildEnabled] is false, this will contain an unsupported
	/// implementation.
	CodeGenerator get codeGenerator => context.get<CodeGenerator>();

	/// A wrapper for a build_runner process which delegates to a generated
	/// build script.
	///
	/// This is only enabled if [experimentalBuildEnabled] is true, and only for
	/// external flutter users.
	abstract class CodeGenerator {
	const CodeGenerator();

	/// Starts a persistent code generting daemon.
	///
	/// The defines of the daemon command are the arguments required in the
	/// flutter_build kernel builder.
	Future<CodegenDaemon> daemon(FlutterProject flutterProject);

	// Generates a synthetic package under .dart_tool/flutter_tool which is in turn
	// used to generate a build script.
	Future<void> generateBuildScript(FlutterProject flutterProject);

	/// Create generated packages file which adds a multi-root scheme to the user's
	/// project directory. Currently we only replace the root package with a multiroot
	/// scheme. To support codegen on arbitrary packages we would need to do
	/// this for each dependency.
	void updatePackages(FlutterProject flutterProject) {
	final String oldPackagesContents = fs.file(PackageMap.globalPackagesPath).readAsStringSync();
	final String appName = flutterProject.manifest.appName;
	final String newPackagesContents = oldPackagesContents.replaceFirst('$appName:lib/', '$appName:$kMultiRootScheme:/');
	final String generatedPackagesPath = fs.path.setExtension(PackageMap.globalPackagesPath, '.generated');
	fs.file(generatedPackagesPath).writeAsStringSync(newPackagesContents);
	}
	}

	class UnsupportedCodeGenerator extends CodeGenerator {
	const UnsupportedCodeGenerator();

	@override
	Future<void> generateBuildScript(FlutterProject flutterProject) {
	throw UnsupportedError('build_runner is not currently supported.');
	}

	@override
	Future<CodegenDaemon> daemon(FlutterProject flutterProject) {
	throw UnsupportedError('build_runner is not currently supported.');
	}
	}

	abstract class CodegenDaemon {
	/// Whether the previously enqueued build was successful.
	Stream<CodegenStatus> get buildResults;

	CodegenStatus get lastStatus;

	/// Starts a new build.
	void startBuild();
	}

	/// An implementation of the [KernelCompiler] which delegates to build_runner.
	///
	/// Only a subset of the arguments provided to the [KernelCompiler] are
	/// supported here. Using the build pipeline implies a fixed multiroot
	/// filesystem and requires a pubspec.
	///
	/// This is only safe to use if [experimentalBuildEnabled] is true.
	class CodeGeneratingKernelCompiler implements KernelCompiler {
	const CodeGeneratingKernelCompiler();

	static const KernelCompiler _delegate = KernelCompiler();

	@override
	Future<CompilerOutput> compile({
	String mainPath,
	String outputFilePath,
	bool linkPlatformKernelIn = false,
	bool aot = false,
	bool trackWidgetCreation,
	List<String> extraFrontEndOptions,
	bool targetProductVm = false,
	// These arguments are currently unused.
	String sdkRoot,
	String packagesPath,
	List<String> fileSystemRoots,
	String fileSystemScheme,
	String depFilePath,
	TargetModel targetModel = TargetModel.flutter,
	String initializeFromDill,
	String platformDill,
	}) async {
	if (fileSystemRoots != null \|\| fileSystemScheme != null \|\| depFilePath != null \|\| targetModel != null \|\| sdkRoot != null \|\| packagesPath != null) {
	printTrace('fileSystemRoots, fileSystemScheme, depFilePath, targetModel,'
	'sdkRoot, packagesPath are not supported when using the experimental '
	'build* pipeline');
	}
	final FlutterProject flutterProject = FlutterProject.current();
	codeGenerator.updatePackages(flutterProject);
	final CodegenDaemon codegenDaemon = await codeGenerator.daemon(flutterProject);
	codegenDaemon.startBuild();
	await for (CodegenStatus codegenStatus in codegenDaemon.buildResults) {
	if (codegenStatus == CodegenStatus.Failed) {
	printError('Code generation failed, build may have compile errors.');
	break;
	}
	if (codegenStatus == CodegenStatus.Succeeded) {
	break;
	}
	}
	return _delegate.compile(
	mainPath: mainPath,
	outputFilePath: outputFilePath,
	linkPlatformKernelIn: linkPlatformKernelIn,
	aot: aot,
	trackWidgetCreation: trackWidgetCreation,
	extraFrontEndOptions: extraFrontEndOptions,
	targetProductVm: targetProductVm,
	sdkRoot: sdkRoot,
	packagesPath: PackageMap.globalGeneratedPackagesPath,
	fileSystemRoots: <String>[
	fs.path.join(flutterProject.generated.path, 'lib${platform.pathSeparator}'),
	fs.path.join(flutterProject.directory.path, 'lib${platform.pathSeparator}'),
	],
	fileSystemScheme: kMultiRootScheme,
	depFilePath: depFilePath,
	targetModel: targetModel,
	initializeFromDill: initializeFromDill,
	);
	}
	}

	/// An implementation of a [ResidentCompiler] which runs a [BuildRunner] before
	/// talking to the CFE.
	class CodeGeneratingResidentCompiler implements ResidentCompiler {
	CodeGeneratingResidentCompiler._(this._residentCompiler, this._codegenDaemon, this._flutterProject);

	/// Creates a new [ResidentCompiler] and configures a [BuildDaemonClient] to
	/// run builds.
	///
	/// If `runCold` is true, then no codegen daemon will be created. Instead the
	/// compiler will only be initialized with the correct configuration for
	/// codegen mode.
	static Future<ResidentCompiler> create({
	@required FlutterProject flutterProject,
	bool trackWidgetCreation = false,
	CompilerMessageConsumer compilerMessageConsumer = printError,
	bool unsafePackageSerialization = false,
	String outputPath,
	String initializeFromDill,
	bool runCold = false,
	}) async {
	codeGenerator.updatePackages(flutterProject);
	final ResidentCompiler residentCompiler = ResidentCompiler(
	artifacts.getArtifactPath(Artifact.flutterPatchedSdkPath),
	trackWidgetCreation: trackWidgetCreation,
	packagesPath: PackageMap.globalGeneratedPackagesPath,
	fileSystemRoots: <String>[
	fs.path.join(flutterProject.generated.path, 'lib${platform.pathSeparator}'),
	fs.path.join(flutterProject.directory.path, 'lib${platform.pathSeparator}'),
	],
	fileSystemScheme: kMultiRootScheme,
	targetModel: TargetModel.flutter,
	unsafePackageSerialization: unsafePackageSerialization,
	initializeFromDill: initializeFromDill,
	);
	if (runCold) {
	return residentCompiler;
	}
	final CodegenDaemon codegenDaemon = await codeGenerator.daemon(flutterProject);
	codegenDaemon.startBuild();
	final CodegenStatus status = await codegenDaemon.buildResults.firstWhere((CodegenStatus status) {
	return status == CodegenStatus.Succeeded \|\| status == CodegenStatus.Failed;
	});
	if (status == CodegenStatus.Failed) {
	printError('Code generation failed, build may have compile errors.');
	}
	return CodeGeneratingResidentCompiler._(residentCompiler, codegenDaemon, flutterProject);
	}

	final ResidentCompiler _residentCompiler;
	final CodegenDaemon _codegenDaemon;
	final FlutterProject _flutterProject;

	@override
	void accept() {
	_residentCompiler.accept();
	}

	@override
	Future<CompilerOutput> compileExpression(String expression, List<String> definitions, List<String> typeDefinitions, String libraryUri, String klass, bool isStatic) {
	return _residentCompiler.compileExpression(expression, definitions, typeDefinitions, libraryUri, klass, isStatic);
	}

	@override
	Future<CompilerOutput> recompile(String mainPath, List<Uri> invalidatedFiles, {String outputPath, String packagesFilePath}) async {
	if (_codegenDaemon.lastStatus != CodegenStatus.Succeeded && _codegenDaemon.lastStatus != CodegenStatus.Failed) {
	await _codegenDaemon.buildResults.firstWhere((CodegenStatus status) {
	return status == CodegenStatus.Succeeded \|\| status == CodegenStatus.Failed;
	});
	}
	if (_codegenDaemon.lastStatus == CodegenStatus.Failed) {
	printError('Code generation failed, build may have compile errors.');
	}
	// Update the generated packages file if the original packages file has changes.
	if (fs.statSync(PackageMap.globalPackagesPath).modified.millisecondsSinceEpoch >
	fs.statSync(PackageMap.globalGeneratedPackagesPath).modified.millisecondsSinceEpoch) {
	codeGenerator.updatePackages(_flutterProject);
	invalidatedFiles.add(fs.file(PackageMap.globalGeneratedPackagesPath).uri);
	}
	return _residentCompiler.recompile(
	mainPath,
	invalidatedFiles,
	outputPath: outputPath,
	packagesFilePath: PackageMap.globalGeneratedPackagesPath,
	);
	}

	@override
	Future<CompilerOutput> reject() {
	return _residentCompiler.reject();
	}

	@override
	void reset() {
	_residentCompiler.reset();
	}

	@override
	Future<void> shutdown() {
	return _residentCompiler.shutdown();
	}
	}

	/// The current status of a codegen build.
	enum CodegenStatus {
	/// The build has started running.
	///
	/// If this is the current status when running a hot reload, an additional build does
	/// not need to be started.
	Started,
	/// The build succeeded.
	Succeeded,
	/// The build failed.
	Failed
	}