// 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 path.context; import 'internal_style.dart'; import 'style.dart'; import 'parsed_path.dart'; import 'path_exception.dart'; import '../path.dart' as p; Context createInternal() => new Context._internal(); /// An instantiable class for manipulating paths. Unlike the top-level /// functions, this lets you explicitly select what platform the paths will use. class Context { /// Creates a new path context for the given style and current directory. /// /// If [style] is omitted, it uses the host operating system's path style. If /// only [current] is omitted, it defaults ".". If *both* [style] and /// [current] are omitted, [current] defaults to the real current working /// directory. /// /// On the browser, [style] defaults to [Style.url] and [current] defaults to /// the current URL. factory Context({Style style, String current}) { if (current == null) { if (style == null) { current = p.current; } else { current = "."; } } if (style == null) { style = Style.platform; } else if (style is! InternalStyle) { throw new ArgumentError("Only styles defined by the path package are " "allowed."); } return new Context._(style, current); } /// Create a [Context] to be used internally within path. Context._internal() : style = Style.platform, _current = null; Context._(this.style, this._current); /// The style of path that this context works with. final InternalStyle style; /// The current directory given when Context was created. If null, current /// directory is evaluated from 'p.current'. final String _current; /// The current directory that relative paths are relative to. String get current => _current != null ? _current : p.current; /// Gets the path separator for the context's [style]. On Mac and Linux, /// this is `/`. On Windows, it's `\`. String get separator => style.separator; /// Creates a new path by appending the given path parts to [current]. /// Equivalent to [join()] with [current] as the first argument. Example: /// /// var context = new Context(current: '/root'); /// context.absolute('path', 'to', 'foo'); // -> '/root/path/to/foo' /// /// If [current] isn't absolute, this won't return an absolute path. String absolute(String part1, [String part2, String part3, String part4, String part5, String part6, String part7]) { return join(current, part1, part2, part3, part4, part5, part6, part7); } /// Gets the part of [path] after the last separator on the context's /// platform. /// /// context.basename('path/to/foo.dart'); // -> 'foo.dart' /// context.basename('path/to'); // -> 'to' /// /// Trailing separators are ignored. /// /// context.basename('path/to/'); // -> 'to' String basename(String path) => _parse(path).basename; /// Gets the part of [path] after the last separator on the context's /// platform, and without any trailing file extension. /// /// context.basenameWithoutExtension('path/to/foo.dart'); // -> 'foo' /// /// Trailing separators are ignored. /// /// context.basenameWithoutExtension('path/to/foo.dart/'); // -> 'foo' String basenameWithoutExtension(String path) => _parse(path).basenameWithoutExtension; /// Gets the part of [path] before the last separator. /// /// context.dirname('path/to/foo.dart'); // -> 'path/to' /// context.dirname('path/to'); // -> 'path' /// /// Trailing separators are ignored. /// /// context.dirname('path/to/'); // -> 'path' String dirname(String path) { var parsed = _parse(path); parsed.removeTrailingSeparators(); if (parsed.parts.isEmpty) return parsed.root == null ? '.' : parsed.root; if (parsed.parts.length == 1) { return parsed.root == null ? '.' : parsed.root; } parsed.parts.removeLast(); parsed.separators.removeLast(); parsed.removeTrailingSeparators(); return parsed.toString(); } /// Gets the file extension of [path]: the portion of [basename] from the last /// `.` to the end (including the `.` itself). /// /// context.extension('path/to/foo.dart'); // -> '.dart' /// context.extension('path/to/foo'); // -> '' /// context.extension('path.to/foo'); // -> '' /// context.extension('path/to/foo.dart.js'); // -> '.js' /// /// If the file name starts with a `.`, then it is not considered an /// extension: /// /// context.extension('~/.bashrc'); // -> '' /// context.extension('~/.notes.txt'); // -> '.txt' String extension(String path) => _parse(path).extension; // TODO(nweiz): add a UNC example for Windows once issue 7323 is fixed. /// Returns the root of [path] if it's absolute, or an empty string if it's /// relative. /// /// // Unix /// context.rootPrefix('path/to/foo'); // -> '' /// context.rootPrefix('/path/to/foo'); // -> '/' /// /// // Windows /// context.rootPrefix(r'path\to\foo'); // -> '' /// context.rootPrefix(r'C:\path\to\foo'); // -> r'C:\' /// /// // URL /// context.rootPrefix('path/to/foo'); // -> '' /// context.rootPrefix('http://dartlang.org/path/to/foo'); /// // -> 'http://dartlang.org' String rootPrefix(String path) => path.substring(0, style.rootLength(path)); /// Returns `true` if [path] is an absolute path and `false` if it is a /// relative path. /// /// On POSIX systems, absolute paths start with a `/` (forward slash). On /// Windows, an absolute path starts with `\\`, or a drive letter followed by /// `:/` or `:\`. For URLs, absolute paths either start with a protocol and /// optional hostname (e.g. `http://dartlang.org`, `file://`) or with a `/`. /// /// URLs that start with `/` are known as "root-relative", since they're /// relative to the root of the current URL. Since root-relative paths are /// still absolute in every other sense, [isAbsolute] will return true for /// them. They can be detected using [isRootRelative]. bool isAbsolute(String path) => style.rootLength(path) > 0; /// Returns `true` if [path] is a relative path and `false` if it is absolute. /// On POSIX systems, absolute paths start with a `/` (forward slash). On /// Windows, an absolute path starts with `\\`, or a drive letter followed by /// `:/` or `:\`. bool isRelative(String path) => !this.isAbsolute(path); /// Returns `true` if [path] is a root-relative path and `false` if it's not. /// /// URLs that start with `/` are known as "root-relative", since they're /// relative to the root of the current URL. Since root-relative paths are /// still absolute in every other sense, [isAbsolute] will return true for /// them. They can be detected using [isRootRelative]. /// /// No POSIX and Windows paths are root-relative. bool isRootRelative(String path) => style.isRootRelative(path); /// Joins the given path parts into a single path. Example: /// /// context.join('path', 'to', 'foo'); // -> 'path/to/foo' /// /// If any part ends in a path separator, then a redundant separator will not /// be added: /// /// context.join('path/', 'to', 'foo'); // -> 'path/to/foo /// /// If a part is an absolute path, then anything before that will be ignored: /// /// context.join('path', '/to', 'foo'); // -> '/to/foo' /// String join(String part1, [String part2, String part3, String part4, String part5, String part6, String part7, String part8]) { var parts = [part1, part2, part3, part4, part5, part6, part7, part8]; _validateArgList("join", parts); return joinAll(parts.where((part) => part != null)); } /// Joins the given path parts into a single path. Example: /// /// context.joinAll(['path', 'to', 'foo']); // -> 'path/to/foo' /// /// If any part ends in a path separator, then a redundant separator will not /// be added: /// /// context.joinAll(['path/', 'to', 'foo']); // -> 'path/to/foo /// /// If a part is an absolute path, then anything before that will be ignored: /// /// context.joinAll(['path', '/to', 'foo']); // -> '/to/foo' /// /// For a fixed number of parts, [join] is usually terser. String joinAll(Iterable parts) { var buffer = new StringBuffer(); var needsSeparator = false; var isAbsoluteAndNotRootRelative = false; for (var part in parts.where((part) => part != '')) { if (this.isRootRelative(part) && isAbsoluteAndNotRootRelative) { // If the new part is root-relative, it preserves the previous root but // replaces the path after it. var parsed = _parse(part); parsed.root = this.rootPrefix(buffer.toString()); if (style.needsSeparator(parsed.root)) { parsed.separators[0] = style.separator; } buffer.clear(); buffer.write(parsed.toString()); } else if (this.isAbsolute(part)) { isAbsoluteAndNotRootRelative = !this.isRootRelative(part); // An absolute path discards everything before it. buffer.clear(); buffer.write(part); } else { if (part.length > 0 && style.containsSeparator(part[0])) { // The part starts with a separator, so we don't need to add one. } else if (needsSeparator) { buffer.write(separator); } buffer.write(part); } // Unless this part ends with a separator, we'll need to add one before // the next part. needsSeparator = style.needsSeparator(part); } return buffer.toString(); } // TODO(nweiz): add a UNC example for Windows once issue 7323 is fixed. /// Splits [path] into its components using the current platform's /// [separator]. Example: /// /// context.split('path/to/foo'); // -> ['path', 'to', 'foo'] /// /// The path will *not* be normalized before splitting. /// /// context.split('path/../foo'); // -> ['path', '..', 'foo'] /// /// If [path] is absolute, the root directory will be the first element in the /// array. Example: /// /// // Unix /// context.split('/path/to/foo'); // -> ['/', 'path', 'to', 'foo'] /// /// // Windows /// context.split(r'C:\path\to\foo'); // -> [r'C:\', 'path', 'to', 'foo'] List split(String path) { var parsed = _parse(path); // Filter out empty parts that exist due to multiple separators in a row. parsed.parts = parsed.parts.where((part) => !part.isEmpty).toList(); if (parsed.root != null) parsed.parts.insert(0, parsed.root); return parsed.parts; } /// Normalizes [path], simplifying it by handling `..`, and `.`, and /// removing redundant path separators whenever possible. /// /// context.normalize('path/./to/..//file.text'); // -> 'path/file.txt' String normalize(String path) { var parsed = _parse(path); parsed.normalize(); return parsed.toString(); } /// Attempts to convert [path] to an equivalent relative path relative to /// [root]. /// /// var context = new Context(current: '/root/path'); /// context.relative('/root/path/a/b.dart'); // -> 'a/b.dart' /// context.relative('/root/other.dart'); // -> '../other.dart' /// /// If the [from] argument is passed, [path] is made relative to that instead. /// /// context.relative('/root/path/a/b.dart', /// from: '/root/path'); // -> 'a/b.dart' /// context.relative('/root/other.dart', /// from: '/root/path'); // -> '../other.dart' /// /// If [path] and/or [from] are relative paths, they are assumed to be /// relative to [current]. /// /// Since there is no relative path from one drive letter to another on /// Windows, this will return an absolute path in that case. /// /// context.relative(r'D:\other', from: r'C:\other'); // -> 'D:\other' /// /// This will also return an absolute path if an absolute [path] is passed to /// a context with a relative path for [current]. /// /// var context = new Context(r'some/relative/path'); /// context.relative(r'/absolute/path'); // -> '/absolute/path' /// /// If [root] is relative, it may be impossible to determine a path from /// [from] to [path]. For example, if [root] and [path] are "." and [from] is /// "/", no path can be determined. In this case, a [PathException] will be /// thrown. String relative(String path, {String from}) { from = from == null ? current : this.join(current, from); // We can't determine the path from a relative path to an absolute path. if (this.isRelative(from) && this.isAbsolute(path)) { return this.normalize(path); } // If the given path is relative, resolve it relative to the context's // current directory. if (this.isRelative(path) || this.isRootRelative(path)) { path = this.absolute(path); } // If the path is still relative and `from` is absolute, we're unable to // find a path from `from` to `path`. if (this.isRelative(path) && this.isAbsolute(from)) { throw new PathException('Unable to find a path to "$path" from "$from".'); } var fromParsed = _parse(from)..normalize(); var pathParsed = _parse(path)..normalize(); if (fromParsed.parts.length > 0 && fromParsed.parts[0] == '.') { return pathParsed.toString(); } // If the root prefixes don't match (for example, different drive letters // on Windows), then there is no relative path, so just return the absolute // one. In Windows, drive letters are case-insenstive and we allow // calculation of relative paths, even if a path has not been normalized. if (fromParsed.root != pathParsed.root && ((fromParsed.root == null || pathParsed.root == null) || fromParsed.root.toLowerCase().replaceAll('/', '\\') != pathParsed.root.toLowerCase().replaceAll('/', '\\'))) { return pathParsed.toString(); } // Strip off their common prefix. while (fromParsed.parts.length > 0 && pathParsed.parts.length > 0 && fromParsed.parts[0] == pathParsed.parts[0]) { fromParsed.parts.removeAt(0); fromParsed.separators.removeAt(1); pathParsed.parts.removeAt(0); pathParsed.separators.removeAt(1); } // If there are any directories left in the from path, we need to walk up // out of them. If a directory left in the from path is '..', it cannot // be cancelled by adding a '..'. if (fromParsed.parts.length > 0 && fromParsed.parts[0] == '..') { throw new PathException('Unable to find a path to "$path" from "$from".'); } pathParsed.parts.insertAll( 0, new List.filled(fromParsed.parts.length, '..')); pathParsed.separators[0] = ''; pathParsed.separators.insertAll( 1, new List.filled(fromParsed.parts.length, style.separator)); // Corner case: the paths completely collapsed. if (pathParsed.parts.length == 0) return '.'; // Corner case: path was '.' and some '..' directories were added in front. // Don't add a final '/.' in that case. if (pathParsed.parts.length > 1 && pathParsed.parts.last == '.') { pathParsed.parts.removeLast(); pathParsed.separators ..removeLast() ..removeLast() ..add(''); } // Make it relative. pathParsed.root = ''; pathParsed.removeTrailingSeparators(); return pathParsed.toString(); } /// Returns `true` if [child] is a path beneath `parent`, and `false` /// otherwise. /// /// path.isWithin('/root/path', '/root/path/a'); // -> true /// path.isWithin('/root/path', '/root/other'); // -> false /// path.isWithin('/root/path', '/root/path'); // -> false bool isWithin(String parent, String child) { var relative; try { relative = this.relative(child, from: parent); } on PathException catch (_) { // If no relative path from [parent] to [child] is found, [child] // definitely isn't a child of [parent]. return false; } var parts = this.split(relative); return this.isRelative(relative) && parts.first != '..' && parts.first != '.'; } /// Removes a trailing extension from the last part of [path]. /// /// context.withoutExtension('path/to/foo.dart'); // -> 'path/to/foo' String withoutExtension(String path) { var parsed = _parse(path); for (var i = parsed.parts.length - 1; i >= 0; i--) { if (!parsed.parts[i].isEmpty) { parsed.parts[i] = parsed.basenameWithoutExtension; break; } } return parsed.toString(); } /// Returns the path represented by [uri], which may be a [String] or a [Uri]. /// /// For POSIX and Windows styles, [uri] must be a `file:` URI. For the URL /// style, this will just convert [uri] to a string. /// /// // POSIX /// context.fromUri('file:///path/to/foo') /// // -> '/path/to/foo' /// /// // Windows /// context.fromUri('file:///C:/path/to/foo') /// // -> r'C:\path\to\foo' /// /// // URL /// context.fromUri('http://dartlang.org/path/to/foo') /// // -> 'http://dartlang.org/path/to/foo' /// /// If [uri] is relative, a relative path will be returned. /// /// path.fromUri('path/to/foo'); // -> 'path/to/foo' String fromUri(uri) { if (uri is String) uri = Uri.parse(uri); return style.pathFromUri(uri); } /// Returns the URI that represents [path]. /// /// For POSIX and Windows styles, this will return a `file:` URI. For the URL /// style, this will just convert [path] to a [Uri]. /// /// // POSIX /// context.toUri('/path/to/foo') /// // -> Uri.parse('file:///path/to/foo') /// /// // Windows /// context.toUri(r'C:\path\to\foo') /// // -> Uri.parse('file:///C:/path/to/foo') /// /// // URL /// context.toUri('http://dartlang.org/path/to/foo') /// // -> Uri.parse('http://dartlang.org/path/to/foo') Uri toUri(String path) { if (isRelative(path)) { return style.relativePathToUri(path); } else { return style.absolutePathToUri(join(current, path)); } } /// Returns a terse, human-readable representation of [uri]. /// /// [uri] can be a [String] or a [Uri]. If it can be made relative to the /// current working directory, that's done. Otherwise, it's returned as-is. /// This gracefully handles non-`file:` URIs for [Style.posix] and /// [Style.windows]. /// /// The returned value is meant for human consumption, and may be either URI- /// or path-formatted. /// /// // POSIX /// var context = new Context(current: '/root/path'); /// context.prettyUri('file:///root/path/a/b.dart'); // -> 'a/b.dart' /// context.prettyUri('http://dartlang.org/'); // -> 'http://dartlang.org' /// /// // Windows /// var context = new Context(current: r'C:\root\path'); /// context.prettyUri('file:///C:/root/path/a/b.dart'); // -> r'a\b.dart' /// context.prettyUri('http://dartlang.org/'); // -> 'http://dartlang.org' /// /// // URL /// var context = new Context(current: 'http://dartlang.org/root/path'); /// context.prettyUri('http://dartlang.org/root/path/a/b.dart'); /// // -> r'a/b.dart' /// context.prettyUri('file:///root/path'); // -> 'file:///root/path' String prettyUri(uri) { if (uri is String) uri = Uri.parse(uri); if (uri.scheme == 'file' && style == Style.url) return uri.toString(); if (uri.scheme != 'file' && uri.scheme != '' && style != Style.url) { return uri.toString(); } var path = normalize(fromUri(uri)); var rel = relative(path); // Only return a relative path if it's actually shorter than the absolute // path. This avoids ugly things like long "../" chains to get to the root // and then go back down. return split(rel).length > split(path).length ? path : rel; } ParsedPath _parse(String path) => new ParsedPath.parse(path, style); } /// Validates that there are no non-null arguments following a null one and /// throws an appropriate [ArgumentError] on failure. _validateArgList(String method, List args) { for (var i = 1; i < args.length; i++) { // Ignore nulls hanging off the end. if (args[i] == null || args[i - 1] != null) continue; var numArgs; for (numArgs = args.length; numArgs >= 1; numArgs--) { if (args[numArgs - 1] != null) break; } // Show the arguments. var message = new StringBuffer(); message.write("$method("); message.write(args .take(numArgs) .map((arg) => arg == null ? "null" : '"$arg"') .join(", ")); message.write("): part ${i - 1} was null, but part $i was not."); throw new ArgumentError(message.toString()); } }