tests/compiler/dart2js/memory_compiler.dart - sdk.git - Git at Google

 // Copyright (c) 2013, 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.

 library dart2js.test.memory_compiler;

 import 'memory_source_file_helper.dart';

 import 'package:compiler/implementation/dart2jslib.dart'
        show NullSink;

 import 'package:compiler/compiler.dart'
        show Diagnostic, DiagnosticHandler, CompilerOutputProvider;

 import 'dart:async';

 import 'package:compiler/implementation/mirrors/source_mirrors.dart';
 import 'package:compiler/implementation/mirrors/analyze.dart';

 class DiagnosticMessage {
   final Uri uri;
   final int begin;
   final int end;
   final String message;
   final Diagnostic kind;

   DiagnosticMessage(this.uri, this.begin, this.end, this.message, this.kind);

   String toString() => '$uri:$begin:$end:$message:$kind';
 }

 class DiagnosticCollector {
   List<DiagnosticMessage> messages = <DiagnosticMessage>[];

   void call(Uri uri, int begin, int end, String message,
                          Diagnostic kind) {
     messages.add(new DiagnosticMessage(uri, begin, end, message, kind));
   }

   Iterable<DiagnosticMessage> filterMessagesByKind(Diagnostic kind) {
     return messages.where(
       (DiagnosticMessage message) => message.kind == kind);
   }

   Iterable<DiagnosticMessage> get errors {
     return filterMessagesByKind(Diagnostic.ERROR);
   }

   Iterable<DiagnosticMessage> get warnings {
     return filterMessagesByKind(Diagnostic.WARNING);
   }

   Iterable<DiagnosticMessage> get hints {
     return filterMessagesByKind(Diagnostic.HINT);
   }

   Iterable<DiagnosticMessage> get infos {
     return filterMessagesByKind(Diagnostic.INFO);
   }
 }

 class BufferedEventSink implements EventSink<String> {
   StringBuffer sb = new StringBuffer();
   String text;

   void add(String event) {
     sb.write(event);
   }

   void addError(errorEvent, [StackTrace stackTrace]) {
     // Do not support this.
   }

   void close() {
     text = sb.toString();
     sb = null;
   }
 }

 class OutputCollector {
   Map<String, Map<String, BufferedEventSink>> outputMap = {};

   EventSink<String> call(String name, String extension) {
     Map<String, BufferedEventSink> sinkMap =
         outputMap.putIfAbsent(extension, () => {});
     return sinkMap.putIfAbsent(name, () => new BufferedEventSink());
   }

   String getOutput(String name, String extension) {
     Map<String, BufferedEventSink> sinkMap = outputMap[extension];
     if (sinkMap == null) return null;
     BufferedEventSink sink = sinkMap[name];
     return sink != null ? sink.text : null;
   }
 }

 DiagnosticHandler createDiagnosticHandler(DiagnosticHandler diagnosticHandler,
                                           SourceFileProvider provider,
                                           bool showDiagnostics) {
   var handler = diagnosticHandler;
   if (showDiagnostics) {
     if (diagnosticHandler == null) {
       handler = new FormattingDiagnosticHandler(provider);
     } else {
       var formattingHandler = new FormattingDiagnosticHandler(provider);
       handler = (Uri uri, int begin, int end, String message, Diagnostic kind) {
         diagnosticHandler(uri, begin, end, message, kind);
         formattingHandler(uri, begin, end, message, kind);
       };
     }
   } else if (diagnosticHandler == null) {
     handler = (Uri uri, int begin, int end, String message, Diagnostic kind) {};
   }
   return handler;
 }

 Expando<MemorySourceFileProvider> expando =
     new Expando<MemorySourceFileProvider>();

 Compiler compilerFor(Map<String,String> memorySourceFiles,
                      {DiagnosticHandler diagnosticHandler,
                       CompilerOutputProvider outputProvider,
                       List<String> options: const [],
                       Compiler cachedCompiler,
                       bool showDiagnostics: true,
                       Uri packageRoot}) {
   Uri libraryRoot = Uri.base.resolve('sdk/');
   if (packageRoot == null) {
     packageRoot = Uri.base.resolveUri(new Uri.file('${Platform.packageRoot}/'));
   }

   MemorySourceFileProvider provider;
   var readStringFromUri;
   if (cachedCompiler == null) {
     provider = new MemorySourceFileProvider(memorySourceFiles);
     readStringFromUri = provider.readStringFromUri;
     // Saving the provider in case we need it later for a cached compiler.
     expando[readStringFromUri] = provider;
   } else {
     // When using a cached compiler, it has read a number of files from disk
     // already (and will not attemp to read them again due to caching). These
     // files must be available to the new diagnostic handler.
     provider = expando[cachedCompiler.provider];
     readStringFromUri = cachedCompiler.provider;
     provider.memorySourceFiles = memorySourceFiles;
   }
   var handler =
       createDiagnosticHandler(diagnosticHandler, provider, showDiagnostics);

   EventSink<String> noOutputProvider(String name, String extension) {
     if (name != '') throw 'Attempt to output file "$name.$extension"';
     return new NullSink('$name.$extension');
   }
   if (outputProvider == null) {
     outputProvider = noOutputProvider;
   }

   Compiler compiler = new Compiler(readStringFromUri,
                                    outputProvider,
                                    handler,
                                    libraryRoot,
                                    packageRoot,
                                    options,
                                    {});
   if (cachedCompiler != null) {
     compiler.coreLibrary =
         cachedCompiler.libraryLoader.lookupLibrary(Uri.parse('dart:core'));
     compiler.types = cachedCompiler.types.copy(compiler);
     Map copiedLibraries = {};
     cachedCompiler.libraryLoader.libraries.forEach((library) {
       if (library.isPlatformLibrary) {
         var libraryLoader = compiler.libraryLoader;
         libraryLoader.mapLibrary(library);
         compiler.onLibraryCreated(library);
         compiler.onLibraryScanned(library, null);
         if (library.isPatched) {
           var patchLibrary = library.patch;
           compiler.onLibraryCreated(patchLibrary);
           compiler.onLibraryScanned(patchLibrary, null);
         }
         copiedLibraries[library.canonicalUri] = library;
       }
     });
     // TODO(johnniwinther): Assert that no libraries are loaded lazily from
     // this call.
     compiler.onLibrariesLoaded(copiedLibraries);

     compiler.symbolConstructor = cachedCompiler.symbolConstructor;
     compiler.mirrorSystemClass = cachedCompiler.mirrorSystemClass;
     compiler.mirrorsUsedClass = cachedCompiler.mirrorsUsedClass;
     compiler.mirrorSystemGetNameFunction =
         cachedCompiler.mirrorSystemGetNameFunction;
     compiler.symbolImplementationClass =
         cachedCompiler.symbolImplementationClass;
     compiler.symbolValidatedConstructor =
         cachedCompiler.symbolValidatedConstructor;
     compiler.mirrorsUsedConstructor = cachedCompiler.mirrorsUsedConstructor;
     compiler.deferredLibraryClass = cachedCompiler.deferredLibraryClass;

     Iterable cachedTreeElements =
         cachedCompiler.enqueuer.resolution.resolvedElements;
     cachedTreeElements.forEach((element) {
       if (element.library.isPlatformLibrary) {
         compiler.enqueuer.resolution.registerResolvedElement(element);
       }
     });

     // One potential problem that can occur when reusing elements is that there
     // is a stale reference to an old compiler object.  By nulling out the old
     // compiler's fields, such stale references are easier to identify.
     cachedCompiler.scanner = null;
     cachedCompiler.dietParser = null;
     cachedCompiler.parser = null;
     cachedCompiler.patchParser = null;
     cachedCompiler.libraryLoader = null;
     cachedCompiler.validator = null;
     cachedCompiler.resolver = null;
     cachedCompiler.closureToClassMapper = null;
     cachedCompiler.checker = null;
     cachedCompiler.irBuilder = null;
     cachedCompiler.typesTask = null;
     cachedCompiler.backend = null;
     // Don't null out the enqueuer as it prevents us from using cachedCompiler
     // more than once.
     cachedCompiler.deferredLoadTask = null;
     cachedCompiler.mirrorUsageAnalyzerTask = null;
     cachedCompiler.dumpInfoTask = null;
     cachedCompiler.buildId = null;
   }
   return compiler;
 }

 Future<MirrorSystem> mirrorSystemFor(Map<String,String> memorySourceFiles,
                                      {DiagnosticHandler diagnosticHandler,
                                       List<String> options: const [],
                                       bool showDiagnostics: true}) {
   Uri libraryRoot = Uri.base.resolve('sdk/');
   Uri packageRoot = Uri.base.resolveUri(
       new Uri.file('${Platform.packageRoot}/'));

   var provider = new MemorySourceFileProvider(memorySourceFiles);
   var handler =
       createDiagnosticHandler(diagnosticHandler, provider, showDiagnostics);

   List<Uri> libraries = <Uri>[];
   memorySourceFiles.forEach((String path, _) {
     libraries.add(new Uri(scheme: 'memory', path: path));
   });

   return analyze(libraries, libraryRoot, packageRoot,
                  provider, handler, options);
 }
	// Copyright (c) 2013, 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.

	library dart2js.test.memory_compiler;

	import 'memory_source_file_helper.dart';

	import 'package:compiler/implementation/dart2jslib.dart'
	show NullSink;

	import 'package:compiler/compiler.dart'
	show Diagnostic, DiagnosticHandler, CompilerOutputProvider;

	import 'dart:async';

	import 'package:compiler/implementation/mirrors/source_mirrors.dart';
	import 'package:compiler/implementation/mirrors/analyze.dart';

	class DiagnosticMessage {
	final Uri uri;
	final int begin;
	final int end;
	final String message;
	final Diagnostic kind;

	DiagnosticMessage(this.uri, this.begin, this.end, this.message, this.kind);

	String toString() => '$uri:$begin:$end:$message:$kind';
	}

	class DiagnosticCollector {
	List<DiagnosticMessage> messages = <DiagnosticMessage>[];

	void call(Uri uri, int begin, int end, String message,
	Diagnostic kind) {
	messages.add(new DiagnosticMessage(uri, begin, end, message, kind));
	}

	Iterable<DiagnosticMessage> filterMessagesByKind(Diagnostic kind) {
	return messages.where(
	(DiagnosticMessage message) => message.kind == kind);
	}

	Iterable<DiagnosticMessage> get errors {
	return filterMessagesByKind(Diagnostic.ERROR);
	}

	Iterable<DiagnosticMessage> get warnings {
	return filterMessagesByKind(Diagnostic.WARNING);
	}

	Iterable<DiagnosticMessage> get hints {
	return filterMessagesByKind(Diagnostic.HINT);
	}

	Iterable<DiagnosticMessage> get infos {
	return filterMessagesByKind(Diagnostic.INFO);
	}
	}

	class BufferedEventSink implements EventSink<String> {
	StringBuffer sb = new StringBuffer();
	String text;

	void add(String event) {
	sb.write(event);
	}

	void addError(errorEvent, [StackTrace stackTrace]) {
	// Do not support this.
	}

	void close() {
	text = sb.toString();
	sb = null;
	}
	}

	class OutputCollector {
	Map<String, Map<String, BufferedEventSink>> outputMap = {};

	EventSink<String> call(String name, String extension) {
	Map<String, BufferedEventSink> sinkMap =
	outputMap.putIfAbsent(extension, () => {});
	return sinkMap.putIfAbsent(name, () => new BufferedEventSink());
	}

	String getOutput(String name, String extension) {
	Map<String, BufferedEventSink> sinkMap = outputMap[extension];
	if (sinkMap == null) return null;
	BufferedEventSink sink = sinkMap[name];
	return sink != null ? sink.text : null;
	}
	}

	DiagnosticHandler createDiagnosticHandler(DiagnosticHandler diagnosticHandler,
	SourceFileProvider provider,
	bool showDiagnostics) {
	var handler = diagnosticHandler;
	if (showDiagnostics) {
	if (diagnosticHandler == null) {
	handler = new FormattingDiagnosticHandler(provider);
	} else {
	var formattingHandler = new FormattingDiagnosticHandler(provider);
	handler = (Uri uri, int begin, int end, String message, Diagnostic kind) {
	diagnosticHandler(uri, begin, end, message, kind);
	formattingHandler(uri, begin, end, message, kind);
	};
	}
	} else if (diagnosticHandler == null) {
	handler = (Uri uri, int begin, int end, String message, Diagnostic kind) {};
	}
	return handler;
	}

	Expando<MemorySourceFileProvider> expando =
	new Expando<MemorySourceFileProvider>();

	Compiler compilerFor(Map<String,String> memorySourceFiles,
	{DiagnosticHandler diagnosticHandler,
	CompilerOutputProvider outputProvider,
	List<String> options: const [],
	Compiler cachedCompiler,
	bool showDiagnostics: true,
	Uri packageRoot}) {
	Uri libraryRoot = Uri.base.resolve('sdk/');
	if (packageRoot == null) {
	packageRoot = Uri.base.resolveUri(new Uri.file('${Platform.packageRoot}/'));
	}

	MemorySourceFileProvider provider;
	var readStringFromUri;
	if (cachedCompiler == null) {
	provider = new MemorySourceFileProvider(memorySourceFiles);
	readStringFromUri = provider.readStringFromUri;
	// Saving the provider in case we need it later for a cached compiler.
	expando[readStringFromUri] = provider;
	} else {
	// When using a cached compiler, it has read a number of files from disk
	// already (and will not attemp to read them again due to caching). These
	// files must be available to the new diagnostic handler.
	provider = expando[cachedCompiler.provider];
	readStringFromUri = cachedCompiler.provider;
	provider.memorySourceFiles = memorySourceFiles;
	}
	var handler =
	createDiagnosticHandler(diagnosticHandler, provider, showDiagnostics);

	EventSink<String> noOutputProvider(String name, String extension) {
	if (name != '') throw 'Attempt to output file "$name.$extension"';
	return new NullSink('$name.$extension');
	}
	if (outputProvider == null) {
	outputProvider = noOutputProvider;
	}

	Compiler compiler = new Compiler(readStringFromUri,
	outputProvider,
	handler,
	libraryRoot,
	packageRoot,
	options,
	{});
	if (cachedCompiler != null) {
	compiler.coreLibrary =
	cachedCompiler.libraryLoader.lookupLibrary(Uri.parse('dart:core'));
	compiler.types = cachedCompiler.types.copy(compiler);
	Map copiedLibraries = {};
	cachedCompiler.libraryLoader.libraries.forEach((library) {
	if (library.isPlatformLibrary) {
	var libraryLoader = compiler.libraryLoader;
	libraryLoader.mapLibrary(library);
	compiler.onLibraryCreated(library);
	compiler.onLibraryScanned(library, null);
	if (library.isPatched) {
	var patchLibrary = library.patch;
	compiler.onLibraryCreated(patchLibrary);
	compiler.onLibraryScanned(patchLibrary, null);
	}
	copiedLibraries[library.canonicalUri] = library;
	}
	});
	// TODO(johnniwinther): Assert that no libraries are loaded lazily from
	// this call.
	compiler.onLibrariesLoaded(copiedLibraries);

	compiler.symbolConstructor = cachedCompiler.symbolConstructor;
	compiler.mirrorSystemClass = cachedCompiler.mirrorSystemClass;
	compiler.mirrorsUsedClass = cachedCompiler.mirrorsUsedClass;
	compiler.mirrorSystemGetNameFunction =
	cachedCompiler.mirrorSystemGetNameFunction;
	compiler.symbolImplementationClass =
	cachedCompiler.symbolImplementationClass;
	compiler.symbolValidatedConstructor =
	cachedCompiler.symbolValidatedConstructor;
	compiler.mirrorsUsedConstructor = cachedCompiler.mirrorsUsedConstructor;
	compiler.deferredLibraryClass = cachedCompiler.deferredLibraryClass;

	Iterable cachedTreeElements =
	cachedCompiler.enqueuer.resolution.resolvedElements;
	cachedTreeElements.forEach((element) {
	if (element.library.isPlatformLibrary) {
	compiler.enqueuer.resolution.registerResolvedElement(element);
	}
	});

	// One potential problem that can occur when reusing elements is that there
	// is a stale reference to an old compiler object. By nulling out the old
	// compiler's fields, such stale references are easier to identify.
	cachedCompiler.scanner = null;
	cachedCompiler.dietParser = null;
	cachedCompiler.parser = null;
	cachedCompiler.patchParser = null;
	cachedCompiler.libraryLoader = null;
	cachedCompiler.validator = null;
	cachedCompiler.resolver = null;
	cachedCompiler.closureToClassMapper = null;
	cachedCompiler.checker = null;
	cachedCompiler.irBuilder = null;
	cachedCompiler.typesTask = null;
	cachedCompiler.backend = null;
	// Don't null out the enqueuer as it prevents us from using cachedCompiler
	// more than once.
	cachedCompiler.deferredLoadTask = null;
	cachedCompiler.mirrorUsageAnalyzerTask = null;
	cachedCompiler.dumpInfoTask = null;
	cachedCompiler.buildId = null;
	}
	return compiler;
	}

	Future<MirrorSystem> mirrorSystemFor(Map<String,String> memorySourceFiles,
	{DiagnosticHandler diagnosticHandler,
	List<String> options: const [],
	bool showDiagnostics: true}) {
	Uri libraryRoot = Uri.base.resolve('sdk/');
	Uri packageRoot = Uri.base.resolveUri(
	new Uri.file('${Platform.packageRoot}/'));

	var provider = new MemorySourceFileProvider(memorySourceFiles);
	var handler =
	createDiagnosticHandler(diagnosticHandler, provider, showDiagnostics);

	List<Uri> libraries = <Uri>[];
	memorySourceFiles.forEach((String path, _) {
	libraries.add(new Uri(scheme: 'memory', path: path));
	});

	return analyze(libraries, libraryRoot, packageRoot,
	provider, handler, options);
	}