Linter Demo Errors: 1Warnings: 8File: /home/fstrocco/Dart/dart/benchmark/analyzer/lib/src/generated/source_io.dart // Copyright (c) 2014, 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. // This code was auto-generated, is not intended to be edited, and is subject to // significant change. Please see the README file for more information. library engine.source.io; import 'dart:collection'; import 'engine.dart'; import 'java_core.dart'; import 'java_engine.dart'; import 'java_io.dart'; import 'source.dart'; export 'source.dart'; /** * Instances of the class [DirectoryBasedSourceContainer] represent a source container that * contains all sources within a given directory. */ class DirectoryBasedSourceContainer implements SourceContainer { /** * The container's path (not `null`). */ String _path; /** * Construct a container representing the specified directory and containing any sources whose * [Source.fullName] starts with the directory's path. This is a convenience method, * fully equivalent to [DirectoryBasedSourceContainer.con2]. * * @param directory the directory (not `null`) */ DirectoryBasedSourceContainer.con1(JavaFile directory) : this.con2(directory.getPath()); /** * Construct a container representing the specified path and containing any sources whose * [Source.fullName] starts with the specified path. * * @param path the path (not `null` and not empty) */ DirectoryBasedSourceContainer.con2(String path) { this._path = _appendFileSeparator(path); } @override int get hashCode => _path.hashCode; /** * Answer the receiver's path, used to determine if a source is contained in the receiver. * * @return the path (not `null`, not empty) */ String get path => _path; @override bool operator ==(Object obj) => (obj is DirectoryBasedSourceContainer) && obj.path == path; @override bool contains(Source source) => source.fullName.startsWith(_path); @override String toString() => "SourceContainer[$_path]"; /** * Append the system file separator to the given path unless the path already ends with a * separator. * * @param path the path to which the file separator is to be added * @return a path that ends with the system file separator */ static String _appendFileSeparator(String path) { if (path == null || path.length <= 0 || path.codeUnitAt(path.length - 1) == JavaFile.separatorChar) { return path; } return "$path${JavaFile.separator}"; } } /** * Instances of the class `FileBasedSource` implement a source that represents a file. */ class FileBasedSource extends Source { /** * A function that changes the way that files are read off of disk. */ static Function fileReadMode = (String s) => s; /** * Map from encoded URI/filepath pair to a unique integer identifier. This * identifier is used for equality tests and hash codes. * * The URI and filepath are joined into a pair by separating them with an '@' * character. */ static final Map _idTable = new HashMap(); /** * The URI from which this source was originally derived. */ final Uri uri; /** * The unique ID associated with this [FileBasedSource]. */ final int id; /** * The file represented by this source. */ final JavaFile file; /** * The cached absolute path of this source. */ String _absolutePath; /** * The cached encoding for this source. */ String _encoding; /** * Initialize a newly created source object. * * @param file the file represented by this source */ FileBasedSource.con1(JavaFile file) : this.con2(file.toURI(), file); /** * Initialize a newly created source object. * * @param file the file represented by this source * @param uri the URI from which this source was originally derived */ FileBasedSource.con2(Uri uri, JavaFile file) : uri = uri, file = file, id = _idTable.putIfAbsent( '$uri@${file.getPath()}', () => _idTable.length); @override TimestampedData get contents { return PerformanceStatistics.io.makeCurrentWhile(() { return contentsFromFile; }); } /** * Get the contents and timestamp of the underlying file. * * Clients should consider using the the method [AnalysisContext.getContents] * because contexts can have local overrides of the content of a source that the source is not * aware of. * * @return the contents of the source paired with the modification stamp of the source * @throws Exception if the contents of this source could not be accessed * See [contents]. */ TimestampedData get contentsFromFile { return new TimestampedData( file.lastModified(), fileReadMode(file.readAsStringSync())); } @override String get encoding { if (_encoding == null) { _encoding = uri.toString(); } return _encoding; } @override String get fullName { if (_absolutePath == null) { _absolutePath = file.getAbsolutePath(); } return _absolutePath; } @override int get hashCode => id; @override bool get isInSystemLibrary => uri.scheme == DartUriResolver.DART_SCHEME; @override int get modificationStamp => file.lastModified(); @override String get shortName => file.getName(); @override UriKind get uriKind { String scheme = uri.scheme; if (scheme == PackageUriResolver.PACKAGE_SCHEME) { return UriKind.PACKAGE_URI; } else if (scheme == DartUriResolver.DART_SCHEME) { return UriKind.DART_URI; } else if (scheme == FileUriResolver.FILE_SCHEME) { return UriKind.FILE_URI; } return UriKind.FILE_URI; } @override bool operator ==(Object object) => object is FileBasedSource && id == object.id; @override bool exists() => file.isFile(); @override Uri resolveRelativeUri(Uri containedUri) { try { Uri baseUri = uri; bool isOpaque = uri.isAbsolute && !uri.path.startsWith('/'); if (isOpaque) { String scheme = uri.scheme; String part = uri.path; if (scheme == DartUriResolver.DART_SCHEME && part.indexOf('/') < 0) { part = "$part/$part.dart"; } baseUri = parseUriWithException("$scheme:/$part"); } Uri result = baseUri.resolveUri(containedUri); if (isOpaque) { result = parseUriWithException( "${result.scheme}:${result.path.substring(1)}"); } return result; } catch (exception, stackTrace) { throw new AnalysisException( "Could not resolve URI ($containedUri) relative to source ($uri)", new CaughtException(exception, stackTrace)); } } @override String toString() { if (file == null) { return ""; } return file.getAbsolutePath(); } } /** * Instances of the class `FileUriResolver` resolve `file` URI's. */ class FileUriResolver extends UriResolver { /** * The name of the `file` scheme. */ static String FILE_SCHEME = "file"; @override Source resolveAbsolute(Uri uri) { if (!isFileUri(uri)) { return null; } return new FileBasedSource.con2(uri, new JavaFile.fromUri(uri)); } /** * Return `true` if the given URI is a `file` URI. * * @param uri the URI being tested * @return `true` if the given URI is a `file` URI */ static bool isFileUri(Uri uri) => uri.scheme == FILE_SCHEME; } /** * Instances of interface `LocalSourcePredicate` are used to determine if the given * [Source] is "local" in some sense, so can be updated. */ abstract class LocalSourcePredicate { /** * Instance of [LocalSourcePredicate] that always returns `false`. */ static final LocalSourcePredicate FALSE = new LocalSourcePredicate_FALSE(); /** * Instance of [LocalSourcePredicate] that always returns `true`. */ static final LocalSourcePredicate TRUE = new LocalSourcePredicate_TRUE(); /** * Instance of [LocalSourcePredicate] that returns `true` for all [Source]s * except of SDK. */ static final LocalSourcePredicate NOT_SDK = new LocalSourcePredicate_NOT_SDK(); /** * Determines if the given [Source] is local. * * @param source the [Source] to analyze * @return `true` if the given [Source] is local */ bool isLocal(Source source); } class LocalSourcePredicate_FALSE implements LocalSourcePredicate { @override bool isLocal(Source source) => false; } class LocalSourcePredicate_NOT_SDK implements LocalSourcePredicate { @override bool isLocal(Source source) => source.uriKind != UriKind.DART_URI; } class LocalSourcePredicate_TRUE implements LocalSourcePredicate { @override bool isLocal(Source source) => true; } /** * Instances of the class `PackageUriResolver` resolve `package` URI's in the context of * an application. * * For the purposes of sharing analysis, the path to each package under the "packages" directory * should be canonicalized, but to preserve relative links within a package, the remainder of the * path from the package directory to the leaf should not. */ class PackageUriResolver extends UriResolver { /** * The name of the `package` scheme. */ static String PACKAGE_SCHEME = "package"; /** * Log exceptions thrown with the message "Required key not available" only once. */ static bool _CanLogRequiredKeyIoException = true; /** * The package directories that `package` URI's are assumed to be relative to. */ final List _packagesDirectories; /** * Initialize a newly created resolver to resolve `package` URI's relative to the given * package directories. * * @param packagesDirectories the package directories that `package` URI's are assumed to be * relative to */ PackageUriResolver(this._packagesDirectories) { if (_packagesDirectories.length < 1) { throw new IllegalArgumentException( "At least one package directory must be provided"); } } /** * If the list of package directories contains one element, return it. * Otherwise raise an exception. Intended for testing. */ String get packagesDirectory_forTesting { int length = _packagesDirectories.length; if (length != 1) { throw new Exception('Expected 1 package directory, found $length'); } return _packagesDirectories[0].getPath(); } /** * Answer the canonical file for the specified package. * * @param packagesDirectory the "packages" directory (not `null`) * @param pkgName the package name (not `null`, not empty) * @param relPath the path relative to the package directory (not `null`, no leading slash, * but may be empty string) * @return the file (not `null`) */ JavaFile getCanonicalFile( JavaFile packagesDirectory, String pkgName, String relPath) { JavaFile pkgDir = new JavaFile.relative(packagesDirectory, pkgName); try { pkgDir = pkgDir.getCanonicalFile(); } on JavaIOException catch (exception, stackTrace) { if (!exception.toString().contains("Required key not available")) { AnalysisEngine.instance.logger.logError("Canonical failed: $pkgDir", new CaughtException(exception, stackTrace)); } else if (_CanLogRequiredKeyIoException) { _CanLogRequiredKeyIoException = false; AnalysisEngine.instance.logger.logError("Canonical failed: $pkgDir", new CaughtException(exception, stackTrace)); } } return new JavaFile.relative(pkgDir, relPath.replaceAll( '/', new String.fromCharCode(JavaFile.separatorChar))); } @override Source resolveAbsolute(Uri uri) { if (!isPackageUri(uri)) { return null; } String path = uri.path; if (path == null) { path = uri.path; if (path == null) { return null; } } String pkgName; String relPath; int index = path.indexOf('/'); if (index == -1) { // No slash pkgName = path; relPath = ""; } else if (index == 0) { // Leading slash is invalid return null; } else { // / pkgName = path.substring(0, index); relPath = path.substring(index + 1); } for (JavaFile packagesDirectory in _packagesDirectories) { JavaFile resolvedFile = new JavaFile.relative(packagesDirectory, path); if (resolvedFile.exists()) { JavaFile canonicalFile = getCanonicalFile(packagesDirectory, pkgName, relPath); if (_isSelfReference(packagesDirectory, canonicalFile)) { uri = canonicalFile.toURI(); } return new FileBasedSource.con2(uri, canonicalFile); } } return new FileBasedSource.con2( uri, getCanonicalFile(_packagesDirectories[0], pkgName, relPath)); } @override Uri restoreAbsolute(Source source) { String sourcePath = source.fullName; for (JavaFile packagesDirectory in _packagesDirectories) { List pkgFolders = packagesDirectory.listFiles(); if (pkgFolders != null) { for (JavaFile pkgFolder in pkgFolders) { try { String pkgCanonicalPath = pkgFolder.getCanonicalPath(); if (sourcePath.startsWith(pkgCanonicalPath)) { String relPath = sourcePath.substring(pkgCanonicalPath.length); return parseUriWithException( "$PACKAGE_SCHEME:${pkgFolder.getName()}$relPath"); } } catch (e) {} } } } return null; } /** * @return `true` if "file" was found in "packagesDir", and it is part of the "lib" folder * of the application that contains in this "packagesDir". */ bool _isSelfReference(JavaFile packagesDir, JavaFile file) { JavaFile rootDir = packagesDir.getParentFile(); if (rootDir == null) { return false; } String rootPath = rootDir.getAbsolutePath(); String filePath = file.getAbsolutePath(); return filePath.startsWith("$rootPath/lib"); } /** * Return `true` if the given URI is a `package` URI. * * @param uri the URI being tested * @return `true` if the given URI is a `package` URI */ static bool isPackageUri(Uri uri) => PACKAGE_SCHEME == uri.scheme; } /** * Instances of the class `RelativeFileUriResolver` resolve `file` URI's. */ class RelativeFileUriResolver extends UriResolver { /** * The name of the `file` scheme. */ static String FILE_SCHEME = "file"; /** * The directories for the relatvie URI's */ final List _relativeDirectories; /** * The root directory for all the source trees */ final JavaFile _rootDirectory; /** * Initialize a newly created resolver to resolve `file` URI's relative to the given root * directory. */ RelativeFileUriResolver(this._rootDirectory, this._relativeDirectories) : super(); @override Source resolveAbsolute(Uri uri) { String rootPath = _rootDirectory.toURI().path; String uriPath = uri.path; if (uriPath != null && uriPath.startsWith(rootPath)) { String filePath = uri.path.substring(rootPath.length); for (JavaFile dir in _relativeDirectories) { JavaFile file = new JavaFile.relative(dir, filePath); if (file.exists()) { return new FileBasedSource.con2(uri, file); } } } return null; } /** * Return `true` if the given URI is a `file` URI. * * @param uri the URI being tested * @return `true` if the given URI is a `file` URI */ static bool isFileUri(Uri uri) => uri.scheme == FILE_SCHEME; }