packages/flutter_tools/lib/src/base/multi_root_file_system.dart - mirrors/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 'dart:io' as io
     show
         Directory,
         File,
         FileStat,
         FileSystemEntity,
         FileSystemEntityType,
         Link;

 import 'package:file/file.dart';
 import 'package:meta/meta.dart';
 import 'package:path/path.dart' as p; // flutter_ignore: package_path_import

 /// A [FileSystem] that wraps the [delegate] file system to create an overlay of
 /// files from multiple [roots].
 ///
 /// Regular paths or `file:` URIs are resolved directly in the underlying file
 /// system, but URIs that use a special [scheme] are resolved by searching
 /// under a set of given roots in order.
 ///
 /// For example, consider the following inputs:
 ///
 ///   - scheme is `multi-root`
 ///   - the set of roots are `/a` and `/b`
 ///   - the underlying file system contains files:
 ///         /root_a/dir/only_a.dart
 ///         /root_a/dir/both.dart
 ///         /root_b/dir/only_b.dart
 ///         /root_b/dir/both.dart
 ///         /other/other.dart
 ///
 /// Then:
 ///
 ///   - file:///other/other.dart is resolved as /other/other.dart
 ///   - multi-root:///dir/only_a.dart is resolved as /root_a/dir/only_a.dart
 ///   - multi-root:///dir/only_b.dart is resolved as /root_b/dir/only_b.dart
 ///   - multi-root:///dir/both.dart is resolved as /root_a/dir/only_a.dart
 class MultiRootFileSystem extends ForwardingFileSystem {
   MultiRootFileSystem({
     required FileSystem delegate,
     required String scheme,
     required List<String> roots,
   })   : assert(delegate != null),
         assert(roots.isNotEmpty),
         _scheme = scheme,
         _roots = roots.map((String root) => delegate.path.normalize(root)).toList(),
         super(delegate);

   @visibleForTesting
   FileSystem get fileSystem => delegate;

   final String _scheme;
   final List<String> _roots;

   @override
   File file(dynamic path) => MultiRootFile(
     fileSystem: this,
     delegate: delegate.file(_resolve(path)),
   );

   @override
   Directory directory(dynamic path) => MultiRootDirectory(
     fileSystem: this,
     delegate: delegate.directory(_resolve(path)),
   );

   @override
   Link link(dynamic path) => MultiRootLink(
     fileSystem: this,
     delegate: delegate.link(_resolve(path)),
   );

   @override
   Future<io.FileStat> stat(String path) =>
     delegate.stat(_resolve(path).toString());

   @override
   io.FileStat statSync(String path) =>
     delegate.statSync(_resolve(path).toString());

   @override
   Future<bool> identical(String path1, String path2) =>
     delegate.identical(_resolve(path1).toString(), _resolve(path2).toString());

   @override
   bool identicalSync(String path1, String path2) =>
     delegate.identicalSync(_resolve(path1).toString(), _resolve(path2).toString());

   @override
   Future<io.FileSystemEntityType> type(String path, {bool followLinks = true}) =>
     delegate.type(_resolve(path).toString(), followLinks: followLinks);

   @override
   io.FileSystemEntityType typeSync(String path, {bool followLinks = true}) =>
     delegate.typeSync(_resolve(path).toString(), followLinks: followLinks);

   // Caching the path context here and clearing when the currentDirectory setter
   // is updated works since the flutter tool restricts usage of dart:io directly
   // via the forbidden import tests. Otherwise, the path context's current
   // working directory might get out of sync, leading to unexpected results from
   // methods like `path.relative`.
   @override
   p.Context get path => _cachedPath ??= delegate.path;
   p.Context? _cachedPath;

   @override
   set currentDirectory(dynamic path) {
     _cachedPath = null;
     delegate.currentDirectory = path;
   }

   /// If the path is a multiroot uri, resolve to the actual path of the
   /// underlying file system. Otherwise, return as is.
   dynamic _resolve(dynamic path) {
     Uri uri;
     if (path == null) {
       return null;
     } else if (path is String) {
       uri = Uri.parse(path);
     } else if (path is Uri) {
       uri = path;
     } else if (path is FileSystemEntity) {
       uri = path.uri;
     } else {
       throw ArgumentError('Invalid type for "path": ${(path as Object?)?.runtimeType}');
     }

     if (!uri.hasScheme || uri.scheme != _scheme) {
       return path;
     }

     String? firstRootPath;
     final String relativePath = delegate.path.joinAll(uri.pathSegments);
     for (final String root in _roots) {
       final String pathWithRoot = delegate.path.join(root, relativePath);
       if (delegate.typeSync(pathWithRoot, followLinks: false) !=
           FileSystemEntityType.notFound) {
         return pathWithRoot;
       }
       firstRootPath ??= pathWithRoot;
     }

     // If not found, construct the path with the first root.
     return firstRootPath!;
   }

   Uri _toMultiRootUri(Uri uri) {
     if (uri.scheme != 'file') {
       return uri;
     }

     final p.Context pathContext = delegate.path;
     final bool isWindows = pathContext.style == p.Style.windows;
     final String path = uri.toFilePath(windows: isWindows);
     for (final String root in _roots) {
       if (path.startsWith('$root${pathContext.separator}')) {
         String pathWithoutRoot = path.substring(root.length + 1);
         if (isWindows) {
           // Convert the path from Windows style
           pathWithoutRoot = p.url.joinAll(pathContext.split(pathWithoutRoot));
         }
         return Uri.parse('$_scheme:///$pathWithoutRoot');
       }
     }
     return uri;
   }

   @override
   String toString() =>
     'MultiRootFileSystem(scheme = $_scheme, roots = $_roots, delegate = $delegate)';
 }

 abstract class MultiRootFileSystemEntity<T extends FileSystemEntity,
     D extends io.FileSystemEntity> extends ForwardingFileSystemEntity<T, D> {
   MultiRootFileSystemEntity({
     required this.fileSystem,
     required this.delegate,
   });

   @override
   final D delegate;

   @override
   final MultiRootFileSystem fileSystem;

   @override
   File wrapFile(io.File delegate) => MultiRootFile(
     fileSystem: fileSystem,
     delegate: delegate,
   );

   @override
   Directory wrapDirectory(io.Directory delegate) => MultiRootDirectory(
     fileSystem: fileSystem,
     delegate: delegate,
   );

   @override
   Link wrapLink(io.Link delegate) => MultiRootLink(
     fileSystem: fileSystem,
     delegate: delegate,
   );

   @override
   Uri get uri => fileSystem._toMultiRootUri(delegate.uri);
 }

 class MultiRootFile extends MultiRootFileSystemEntity<File, io.File>
     with ForwardingFile {
   MultiRootFile({
     required super.fileSystem,
     required super.delegate,
   });

   @override
   String toString() =>
     'MultiRootFile(fileSystem = $fileSystem, delegate = $delegate)';
 }

 class MultiRootDirectory
     extends MultiRootFileSystemEntity<Directory, io.Directory>
     with ForwardingDirectory<Directory> {
   MultiRootDirectory({
     required super.fileSystem,
     required super.delegate,
   });

   // For the childEntity methods, we first obtain an instance of the entity
   // from the underlying file system, then invoke childEntity() on it, then
   // wrap in the ErrorHandling version.
   @override
   Directory childDirectory(String basename) =>
     fileSystem.directory(fileSystem.path.join(delegate.path, basename));

   @override
   File childFile(String basename) =>
     fileSystem.file(fileSystem.path.join(delegate.path, basename));

   @override
   Link childLink(String basename) =>
     fileSystem.link(fileSystem.path.join(delegate.path, basename));

   @override
   String toString() =>
     'MultiRootDirectory(fileSystem = $fileSystem, delegate = $delegate)';
 }

 class MultiRootLink extends MultiRootFileSystemEntity<Link, io.Link>
     with ForwardingLink {
   MultiRootLink({
     required super.fileSystem,
     required super.delegate,
   });

   @override
   String toString() =>
     'MultiRootLink(fileSystem = $fileSystem, delegate = $delegate)';
 }
	// 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 'dart:io' as io
	show
	Directory,
	File,
	FileStat,
	FileSystemEntity,
	FileSystemEntityType,
	Link;

	import 'package:file/file.dart';
	import 'package:meta/meta.dart';
	import 'package:path/path.dart' as p; // flutter_ignore: package_path_import

	/// A [FileSystem] that wraps the [delegate] file system to create an overlay of
	/// files from multiple [roots].
	///
	/// Regular paths or `file:` URIs are resolved directly in the underlying file
	/// system, but URIs that use a special [scheme] are resolved by searching
	/// under a set of given roots in order.
	///
	/// For example, consider the following inputs:
	///
	/// - scheme is `multi-root`
	/// - the set of roots are `/a` and `/b`
	/// - the underlying file system contains files:
	/// /root_a/dir/only_a.dart
	/// /root_a/dir/both.dart
	/// /root_b/dir/only_b.dart
	/// /root_b/dir/both.dart
	/// /other/other.dart
	///
	/// Then:
	///
	/// - file:///other/other.dart is resolved as /other/other.dart
	/// - multi-root:///dir/only_a.dart is resolved as /root_a/dir/only_a.dart
	/// - multi-root:///dir/only_b.dart is resolved as /root_b/dir/only_b.dart
	/// - multi-root:///dir/both.dart is resolved as /root_a/dir/only_a.dart
	class MultiRootFileSystem extends ForwardingFileSystem {
	MultiRootFileSystem({
	required FileSystem delegate,
	required String scheme,
	required List<String> roots,
	}) : assert(delegate != null),
	assert(roots.isNotEmpty),
	_scheme = scheme,
	_roots = roots.map((String root) => delegate.path.normalize(root)).toList(),
	super(delegate);

	@visibleForTesting
	FileSystem get fileSystem => delegate;

	final String _scheme;
	final List<String> _roots;

	@override
	File file(dynamic path) => MultiRootFile(
	fileSystem: this,
	delegate: delegate.file(_resolve(path)),
	);

	@override
	Directory directory(dynamic path) => MultiRootDirectory(
	fileSystem: this,
	delegate: delegate.directory(_resolve(path)),
	);

	@override
	Link link(dynamic path) => MultiRootLink(
	fileSystem: this,
	delegate: delegate.link(_resolve(path)),
	);

	@override
	Future<io.FileStat> stat(String path) =>
	delegate.stat(_resolve(path).toString());

	@override
	io.FileStat statSync(String path) =>
	delegate.statSync(_resolve(path).toString());

	@override
	Future<bool> identical(String path1, String path2) =>
	delegate.identical(_resolve(path1).toString(), _resolve(path2).toString());

	@override
	bool identicalSync(String path1, String path2) =>
	delegate.identicalSync(_resolve(path1).toString(), _resolve(path2).toString());

	@override
	Future<io.FileSystemEntityType> type(String path, {bool followLinks = true}) =>
	delegate.type(_resolve(path).toString(), followLinks: followLinks);

	@override
	io.FileSystemEntityType typeSync(String path, {bool followLinks = true}) =>
	delegate.typeSync(_resolve(path).toString(), followLinks: followLinks);

	// Caching the path context here and clearing when the currentDirectory setter
	// is updated works since the flutter tool restricts usage of dart:io directly
	// via the forbidden import tests. Otherwise, the path context's current
	// working directory might get out of sync, leading to unexpected results from
	// methods like `path.relative`.
	@override
	p.Context get path => _cachedPath ??= delegate.path;
	p.Context? _cachedPath;

	@override
	set currentDirectory(dynamic path) {
	_cachedPath = null;
	delegate.currentDirectory = path;
	}

	/// If the path is a multiroot uri, resolve to the actual path of the
	/// underlying file system. Otherwise, return as is.
	dynamic _resolve(dynamic path) {
	Uri uri;
	if (path == null) {
	return null;
	} else if (path is String) {
	uri = Uri.parse(path);
	} else if (path is Uri) {
	uri = path;
	} else if (path is FileSystemEntity) {
	uri = path.uri;
	} else {
	throw ArgumentError('Invalid type for "path": ${(path as Object?)?.runtimeType}');
	}

	if (!uri.hasScheme \|\| uri.scheme != _scheme) {
	return path;
	}

	String? firstRootPath;
	final String relativePath = delegate.path.joinAll(uri.pathSegments);
	for (final String root in _roots) {
	final String pathWithRoot = delegate.path.join(root, relativePath);
	if (delegate.typeSync(pathWithRoot, followLinks: false) !=
	FileSystemEntityType.notFound) {
	return pathWithRoot;
	}
	firstRootPath ??= pathWithRoot;
	}

	// If not found, construct the path with the first root.
	return firstRootPath!;
	}

	Uri _toMultiRootUri(Uri uri) {
	if (uri.scheme != 'file') {
	return uri;
	}

	final p.Context pathContext = delegate.path;
	final bool isWindows = pathContext.style == p.Style.windows;
	final String path = uri.toFilePath(windows: isWindows);
	for (final String root in _roots) {
	if (path.startsWith('$root${pathContext.separator}')) {
	String pathWithoutRoot = path.substring(root.length + 1);
	if (isWindows) {
	// Convert the path from Windows style
	pathWithoutRoot = p.url.joinAll(pathContext.split(pathWithoutRoot));
	}
	return Uri.parse('$_scheme:///$pathWithoutRoot');
	}
	}
	return uri;
	}

	@override
	String toString() =>
	'MultiRootFileSystem(scheme = $_scheme, roots = $_roots, delegate = $delegate)';
	}

	abstract class MultiRootFileSystemEntity<T extends FileSystemEntity,
	D extends io.FileSystemEntity> extends ForwardingFileSystemEntity<T, D> {
	MultiRootFileSystemEntity({
	required this.fileSystem,
	required this.delegate,
	});

	@override
	final D delegate;

	@override
	final MultiRootFileSystem fileSystem;

	@override
	File wrapFile(io.File delegate) => MultiRootFile(
	fileSystem: fileSystem,
	delegate: delegate,
	);

	@override
	Directory wrapDirectory(io.Directory delegate) => MultiRootDirectory(
	fileSystem: fileSystem,
	delegate: delegate,
	);

	@override
	Link wrapLink(io.Link delegate) => MultiRootLink(
	fileSystem: fileSystem,
	delegate: delegate,
	);

	@override
	Uri get uri => fileSystem._toMultiRootUri(delegate.uri);
	}

	class MultiRootFile extends MultiRootFileSystemEntity<File, io.File>
	with ForwardingFile {
	MultiRootFile({
	required super.fileSystem,
	required super.delegate,
	});

	@override
	String toString() =>
	'MultiRootFile(fileSystem = $fileSystem, delegate = $delegate)';
	}

	class MultiRootDirectory
	extends MultiRootFileSystemEntity<Directory, io.Directory>
	with ForwardingDirectory<Directory> {
	MultiRootDirectory({
	required super.fileSystem,
	required super.delegate,
	});

	// For the childEntity methods, we first obtain an instance of the entity
	// from the underlying file system, then invoke childEntity() on it, then
	// wrap in the ErrorHandling version.
	@override
	Directory childDirectory(String basename) =>
	fileSystem.directory(fileSystem.path.join(delegate.path, basename));

	@override
	File childFile(String basename) =>
	fileSystem.file(fileSystem.path.join(delegate.path, basename));

	@override
	Link childLink(String basename) =>
	fileSystem.link(fileSystem.path.join(delegate.path, basename));

	@override
	String toString() =>
	'MultiRootDirectory(fileSystem = $fileSystem, delegate = $delegate)';
	}

	class MultiRootLink extends MultiRootFileSystemEntity<Link, io.Link>
	with ForwardingLink {
	MultiRootLink({
	required super.fileSystem,
	required super.delegate,
	});

	@override
	String toString() =>
	'MultiRootLink(fileSystem = $fileSystem, delegate = $delegate)';
	}