pkg/modular_test/lib/src/pipeline.dart - sdk.git - Git at Google

 // Copyright (c) 2019, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 /// Abstraction for a compilation pipeline.
 ///
 /// A pipeline defines how modular steps are excuted and ensures that a step
 /// only has access to the data it declares.
 ///
 /// The abstract implementation validates how the data is declared, and the
 /// underlying implementations enforce the access to data in different ways.
 ///
 /// The IO-based implementation ensures hermeticity by copying data to different
 /// directories. The memory-based implementation ensures hemeticity by filtering
 /// out the data before invoking the next step.
 import 'suite.dart';

 /// Describes a step in a modular compilation pipeline.
 class ModularStep {
   /// Whether this step needs to read the source files in the module.
   final bool needsSources;

   /// Data that this step needs to read about dependencies.
   ///
   /// This can be data produced on a previous stage of the pipeline
   /// or produced by this same step when it was run on a dependency.
   ///
   /// If this list includes any data from [resultData], then the modular-step
   /// has to be run on dependencies before it is run on a module. Otherwise, it
   /// could be run in parallel.
   final List<DataId> dependencyDataNeeded;

   /// Data that this step needs to read about the module itself.
   ///
   /// This is meant to be data produced in earlier stages of the modular
   /// pipeline. It is an error to include any id from [resultData] in this list.
   final List<DataId> moduleDataNeeded;

   /// Data that this step produces.
   final List<DataId> resultData;

   /// Whether this step is only executed on the main module.
   final bool onlyOnMain;

   /// Whether this step is only exceuted on the SDK.
   final bool onlyOnSdk;

   /// Whether this step is not executed on the SDK.
   final bool notOnSdk;

   ModularStep(
       {this.needsSources: true,
       this.dependencyDataNeeded: const [],
       this.moduleDataNeeded: const [],
       this.resultData: const [],
       this.onlyOnMain: false,
       this.onlyOnSdk: false,
       this.notOnSdk: false});

   /// Notifies that the step was not executed, but cached instead.
   void notifyCached(Module module) {}
 }

 /// An object to uniquely identify modular data produced by a modular step.
 ///
 /// Two modular steps on the same pipeline cannot emit the same data.
 class DataId {
   final String name;

   const DataId(this.name);

   @override
   String toString() => name;
 }

 abstract class Pipeline<S extends ModularStep> {
   /// Whether to cache the result of shared modules (e.g. shard packages and sdk
   /// libraries) when multiple tests are run by this pipeline.
   final bool cacheSharedModules;

   final List<S> steps;

   Pipeline(this.steps, this.cacheSharedModules) {
     _validate();
   }

   void _validate() {
     // Whether or not two steps run on mutually exclusive input data.
     bool areMutuallyExclusive(S a, S b) {
       return (a.onlyOnSdk && b.notOnSdk) || (b.onlyOnSdk && a.notOnSdk);
     }

     // Ensure that steps consume only data that was produced by previous steps
     // or by the same step on a dependency.
     Map<DataId, S> previousKinds = {};
     for (var step in steps) {
       if (step.resultData.isEmpty) {
         _validationError(
             "'${step.runtimeType}' needs to declare what data it produces.");
       }
       for (var resultKind in step.resultData) {
         if (previousKinds.containsKey(resultKind) &&
             !areMutuallyExclusive(step, previousKinds[resultKind]!)) {
           _validationError("Cannot produce the same data on two modular steps."
               " '$resultKind' was previously produced by "
               "'${previousKinds[resultKind].runtimeType}' but "
               "'${step.runtimeType}' also produces the same data.");
         }
         previousKinds[resultKind] = step;
         for (var dataId in step.dependencyDataNeeded) {
           if (!previousKinds.containsKey(dataId)) {
             _validationError(
                 "Step '${step.runtimeType}' needs data '${dataId}', but the "
                 "data is not produced by this or a preceding step.");
           }
         }
         for (var dataId in step.moduleDataNeeded) {
           if (!previousKinds.containsKey(dataId)) {
             _validationError(
                 "Step '${step.runtimeType}' needs data '${dataId}', but the "
                 "data is not produced by a preceding step.");
           }
           if (dataId == resultKind) {
             _validationError("Circular dependency on '$dataId' "
                 "in step '${step.runtimeType}'");
           }
         }
       }
     }
   }

   void _validationError(String s) => throw InvalidPipelineError(s);

   Future<void> run(ModularTest test) async {
     // TODO(sigmund): validate that [ModularTest] has no cycles.
     Map<Module, Set<DataId>> computedData = {};
     for (var step in steps) {
       await _recursiveRun(step, test.mainModule, computedData, {}, test.flags);
     }
   }

   Future<void> _recursiveRun(
       S step,
       Module module,
       Map<Module, Set<DataId>> computedData,
       Map<Module, Set<Module>> transitiveDependencies,
       List<String> flags) async {
     if (transitiveDependencies.containsKey(module)) return;
     var deps = transitiveDependencies[module] = {};
     for (var dependency in module.dependencies) {
       await _recursiveRun(
           step, dependency, computedData, transitiveDependencies, flags);
       deps.add(dependency);
       deps.addAll(transitiveDependencies[dependency]!);
     }

     if ((step.onlyOnMain && !module.isMain) ||
         (step.onlyOnSdk && !module.isSdk) ||
         (step.notOnSdk && module.isSdk)) return;
     // Include only requested data from transitive dependencies.
     Map<Module, Set<DataId>> visibleData = {};

     deps.forEach((dep) {
       visibleData[dep] = {};
       for (var dataId in step.dependencyDataNeeded) {
         if (computedData[dep]!.contains(dataId)) {
           visibleData[dep]!.add(dataId);
         }
       }
     });
     visibleData[module] = {};
     for (var dataId in step.moduleDataNeeded) {
       if (computedData[module]!.contains(dataId)) {
         visibleData[module]!.add(dataId);
       }
     }
     await runStep(step, module, visibleData, flags);
     (computedData[module] ??= {}).addAll(step.resultData);
   }

   Future<void> runStep(S step, Module module,
       Map<Module, Set<DataId>> visibleData, List<String> flags);
 }

 class InvalidPipelineError extends Error {
   final String message;
   InvalidPipelineError(this.message);
   String toString() => "Invalid pipeline: $message";
 }
	// Copyright (c) 2019, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	/// Abstraction for a compilation pipeline.
	///
	/// A pipeline defines how modular steps are excuted and ensures that a step
	/// only has access to the data it declares.
	///
	/// The abstract implementation validates how the data is declared, and the
	/// underlying implementations enforce the access to data in different ways.
	///
	/// The IO-based implementation ensures hermeticity by copying data to different
	/// directories. The memory-based implementation ensures hemeticity by filtering
	/// out the data before invoking the next step.
	import 'suite.dart';

	/// Describes a step in a modular compilation pipeline.
	class ModularStep {
	/// Whether this step needs to read the source files in the module.
	final bool needsSources;

	/// Data that this step needs to read about dependencies.
	///
	/// This can be data produced on a previous stage of the pipeline
	/// or produced by this same step when it was run on a dependency.
	///
	/// If this list includes any data from [resultData], then the modular-step
	/// has to be run on dependencies before it is run on a module. Otherwise, it
	/// could be run in parallel.
	final List<DataId> dependencyDataNeeded;

	/// Data that this step needs to read about the module itself.
	///
	/// This is meant to be data produced in earlier stages of the modular
	/// pipeline. It is an error to include any id from [resultData] in this list.
	final List<DataId> moduleDataNeeded;

	/// Data that this step produces.
	final List<DataId> resultData;

	/// Whether this step is only executed on the main module.
	final bool onlyOnMain;

	/// Whether this step is only exceuted on the SDK.
	final bool onlyOnSdk;

	/// Whether this step is not executed on the SDK.
	final bool notOnSdk;

	ModularStep(
	{this.needsSources: true,
	this.dependencyDataNeeded: const [],
	this.moduleDataNeeded: const [],
	this.resultData: const [],
	this.onlyOnMain: false,
	this.onlyOnSdk: false,
	this.notOnSdk: false});

	/// Notifies that the step was not executed, but cached instead.
	void notifyCached(Module module) {}
	}

	/// An object to uniquely identify modular data produced by a modular step.
	///
	/// Two modular steps on the same pipeline cannot emit the same data.
	class DataId {
	final String name;

	const DataId(this.name);

	@override
	String toString() => name;
	}

	abstract class Pipeline<S extends ModularStep> {
	/// Whether to cache the result of shared modules (e.g. shard packages and sdk
	/// libraries) when multiple tests are run by this pipeline.
	final bool cacheSharedModules;

	final List<S> steps;

	Pipeline(this.steps, this.cacheSharedModules) {
	_validate();
	}

	void _validate() {
	// Whether or not two steps run on mutually exclusive input data.
	bool areMutuallyExclusive(S a, S b) {
	return (a.onlyOnSdk && b.notOnSdk) \|\| (b.onlyOnSdk && a.notOnSdk);
	}

	// Ensure that steps consume only data that was produced by previous steps
	// or by the same step on a dependency.
	Map<DataId, S> previousKinds = {};
	for (var step in steps) {
	if (step.resultData.isEmpty) {
	_validationError(
	"'${step.runtimeType}' needs to declare what data it produces.");
	}
	for (var resultKind in step.resultData) {
	if (previousKinds.containsKey(resultKind) &&
	!areMutuallyExclusive(step, previousKinds[resultKind]!)) {
	_validationError("Cannot produce the same data on two modular steps."
	" '$resultKind' was previously produced by "
	"'${previousKinds[resultKind].runtimeType}' but "
	"'${step.runtimeType}' also produces the same data.");
	}
	previousKinds[resultKind] = step;
	for (var dataId in step.dependencyDataNeeded) {
	if (!previousKinds.containsKey(dataId)) {
	_validationError(
	"Step '${step.runtimeType}' needs data '${dataId}', but the "
	"data is not produced by this or a preceding step.");
	}
	}
	for (var dataId in step.moduleDataNeeded) {
	if (!previousKinds.containsKey(dataId)) {
	_validationError(
	"Step '${step.runtimeType}' needs data '${dataId}', but the "
	"data is not produced by a preceding step.");
	}
	if (dataId == resultKind) {
	_validationError("Circular dependency on '$dataId' "
	"in step '${step.runtimeType}'");
	}
	}
	}
	}
	}

	void _validationError(String s) => throw InvalidPipelineError(s);

	Future<void> run(ModularTest test) async {
	// TODO(sigmund): validate that [ModularTest] has no cycles.
	Map<Module, Set<DataId>> computedData = {};
	for (var step in steps) {
	await _recursiveRun(step, test.mainModule, computedData, {}, test.flags);
	}
	}

	Future<void> _recursiveRun(
	S step,
	Module module,
	Map<Module, Set<DataId>> computedData,
	Map<Module, Set<Module>> transitiveDependencies,
	List<String> flags) async {
	if (transitiveDependencies.containsKey(module)) return;
	var deps = transitiveDependencies[module] = {};
	for (var dependency in module.dependencies) {
	await _recursiveRun(
	step, dependency, computedData, transitiveDependencies, flags);
	deps.add(dependency);
	deps.addAll(transitiveDependencies[dependency]!);
	}

	if ((step.onlyOnMain && !module.isMain) \|\|
	(step.onlyOnSdk && !module.isSdk) \|\|
	(step.notOnSdk && module.isSdk)) return;
	// Include only requested data from transitive dependencies.
	Map<Module, Set<DataId>> visibleData = {};

	deps.forEach((dep) {
	visibleData[dep] = {};
	for (var dataId in step.dependencyDataNeeded) {
	if (computedData[dep]!.contains(dataId)) {
	visibleData[dep]!.add(dataId);
	}
	}
	});
	visibleData[module] = {};
	for (var dataId in step.moduleDataNeeded) {
	if (computedData[module]!.contains(dataId)) {
	visibleData[module]!.add(dataId);
	}
	}
	await runStep(step, module, visibleData, flags);
	(computedData[module] ??= {}).addAll(step.resultData);
	}

	Future<void> runStep(S step, Module module,
	Map<Module, Set<DataId>> visibleData, List<String> flags);
	}

	class InvalidPipelineError extends Error {
	final String message;
	InvalidPipelineError(this.message);
	String toString() => "Invalid pipeline: $message";
	}