tools/patch_sdk.dart - sdk.git - Git at Google

 #!/usr/bin/env dart
 // Copyright (c) 2015, 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.

 /// Command line tool to merge the SDK libraries and our patch files.
 /// This is currently designed as an offline tool, but we could automate it.

 import 'dart:io';
 import 'dart:isolate' show RawReceivePort;
 import 'dart:async';
 import 'dart:math' as math;

 import 'package:analyzer/analyzer.dart';
 import 'package:analyzer/src/generated/sdk.dart';
 import 'package:path/path.dart' as path;

 import 'package:front_end/src/fasta/fasta.dart'
     show compilePlatform, writeDepsFile;

 /// Set of input files that were read by this script to generate patched SDK.
 /// We will dump it out into the depfile for ninja to use.
 ///
 /// For more information see GN and Ninja references:
 ///    https://chromium.googlesource.com/chromium/src/+/56807c6cb383140af0c03da8f6731d77785d7160/tools/gn/docs/reference.md#depfile_string_File-name-for-input-dependencies-for-actions
 ///    https://ninja-build.org/manual.html#_depfile
 ///
 final deps = new Set<Uri>();

 /// Create [File] object from the given path and register it as a dependency.
 File getInputFile(String path, {canBeMissing: false}) {
   final file = new File(path);
   if (!file.existsSync()) {
     if (!canBeMissing) throw "patch_sdk.dart expects all inputs to exist";
     return null;
   }
   deps.add(Uri.base.resolveUri(file.uri));
   return file;
 }

 /// Read the given file synchronously as a string and register this path as
 /// a dependency.
 String readInputFile(String path, {canBeMissing: false}) =>
     getInputFile(path, canBeMissing: canBeMissing)?.readAsStringSync();

 Future main(List<String> argv) async {
   var port = new RawReceivePort();
   try {
     await _main(argv);
   } finally {
     port.close();
   }
 }

 Future _main(List<String> argv) async {
   var base = path.fromUri(Platform.script);
   var dartDir = path.dirname(path.dirname(path.absolute(base)));

   if (argv.length != 5 || argv.first != 'vm') {
     final self = path.relative(base);
     print('Usage: $self vm SDK_DIR PATCH_DIR OUTPUT_DIR PACKAGES');

     final repositoryDir = path.relative(path.dirname(path.dirname(base)));
     final sdkExample = path.relative(path.join(repositoryDir, 'sdk'));
     final patchExample = path.relative(
         path.join(repositoryDir, 'out', 'DebugX64', 'obj', 'gen', 'patch'));
     final outExample = path.relative(path.join(
         repositoryDir, 'out', 'DebugX64', 'obj', 'gen', 'patched_sdk'));
     print('For example:');
     print('\$ $self vm $sdkExample $patchExample $outExample');

     exit(1);
   }

   var mode = argv[0];
   assert(mode == "vm");
   var input = argv[1];
   var sdkLibIn = path.join(input, 'lib');
   var patchIn = argv[2];
   var outDir = argv[3];
   var sdkOut = path.join(outDir, 'lib');
   var packagesFile = argv[4];

   // Copy and patch libraries.dart and version
   var libContents = readInputFile(path.join(
       sdkLibIn, '_internal', 'sdk_library_metadata', 'lib', 'libraries.dart'));
   libContents = libContents.replaceAll(
       ' libraries = const {',
       ''' libraries = const {

   "_builtin": const LibraryInfo(
       "_builtin/_builtin.dart",
       categories: "Client,Server",
       implementation: true,
       documented: false,
       platforms: VM_PLATFORM),

   "profiler": const LibraryInfo(
       "profiler/profiler.dart",
       maturity: Maturity.DEPRECATED,
       documented: false),

   "_vmservice": const LibraryInfo(
       "vmservice/vmservice.dart",
       implementation: true,
       documented: false,
       platforms: VM_PLATFORM),

   "vmservice_io": const LibraryInfo(
       "vmservice_io/vmservice_io.dart",
       implementation: true,
       documented: false,
       platforms: VM_PLATFORM),

 ''');
   _writeSync(
       path.join(
           sdkOut, '_internal', 'sdk_library_metadata', 'lib', 'libraries.dart'),
       libContents);

   // Parse libraries.dart
   var sdkLibraries = _getSdkLibraries(libContents);

   // Enumerate core libraries and apply patches
   for (SdkLibrary library in sdkLibraries) {
     if (library.isDart2JsLibrary) {
       continue;
     }

     var libraryOut = path.join(sdkLibIn, library.path);
     var libraryIn = libraryOut;

     var libraryFile = getInputFile(libraryIn, canBeMissing: true);
     if (libraryFile != null) {
       var outPaths = <String>[libraryOut];
       var libraryContents = libraryFile.readAsStringSync();

       int inputModifyTime =
           libraryFile.lastModifiedSync().millisecondsSinceEpoch;
       var partFiles = <File>[];
       for (var part in parseDirectives(libraryContents).directives) {
         if (part is PartDirective) {
           var partPath = part.uri.stringValue;
           outPaths.add(path.join(path.dirname(libraryOut), partPath));

           var partFile =
               getInputFile(path.join(path.dirname(libraryIn), partPath));
           partFiles.add(partFile);
           inputModifyTime = math.max(inputModifyTime,
               partFile.lastModifiedSync().millisecondsSinceEpoch);
         }
       }

       // See if we can find a patch file.
       var patchPath = path.join(
           patchIn, path.basenameWithoutExtension(libraryIn) + '_patch.dart');

       var patchFile = getInputFile(patchPath, canBeMissing: true);
       if (patchFile != null) {
         inputModifyTime = math.max(inputModifyTime,
             patchFile.lastModifiedSync().millisecondsSinceEpoch);
       }

       // Compute output paths
       outPaths = outPaths
           .map((p) => path.join(sdkOut, path.relative(p, from: sdkLibIn)))
           .toList();

       // Compare output modify time with input modify time.
       bool needsUpdate = false;
       for (var outPath in outPaths) {
         var outFile = new File(outPath);
         if (!outFile.existsSync() ||
             outFile.lastModifiedSync().millisecondsSinceEpoch <
                 inputModifyTime) {
           needsUpdate = true;
           break;
         }
       }

       if (needsUpdate) {
         var contents = <String>[libraryContents];
         contents.addAll(partFiles.map((f) => f.readAsStringSync()));
         if (patchFile != null) {
           var patchContents = patchFile.readAsStringSync();
           contents = _patchLibrary(patchFile.path, contents, patchContents);
         }

         for (var i = 0; i < outPaths.length; i++) {
           _writeSync(outPaths[i], contents[i]);
         }
       }
     }
   }

   for (var tuple in [
     ['_builtin', 'builtin.dart']
   ]) {
     var vmLibrary = tuple[0];
     var dartFile = tuple[1];

     // The "dart:_builtin" library is only available for the DartVM.
     var builtinLibraryIn = path.join(dartDir, 'runtime', 'bin', dartFile);
     var builtinLibraryOut = path.join(sdkOut, vmLibrary, '${vmLibrary}.dart');
     _writeSync(builtinLibraryOut, readInputFile(builtinLibraryIn));
   }

   for (var file in ['loader.dart', 'server.dart', 'vmservice_io.dart']) {
     var libraryIn = path.join(dartDir, 'runtime', 'bin', 'vmservice', file);
     var libraryOut = path.join(sdkOut, 'vmservice_io', file);
     _writeSync(libraryOut, readInputFile(libraryIn));
   }

   Uri platform = Uri.base
       .resolveUri(new Uri.directory(outDir).resolve('platform.dill.tmp'));
   Uri packages = Uri.base.resolveUri(new Uri.file(packagesFile));
   await compilePlatform(
       Uri.base.resolveUri(new Uri.directory(outDir)), platform,
       packages: packages, verbose: false);

   Uri platformFinalLocation =
       Uri.base.resolveUri(new Uri.directory(outDir).resolve('platform.dill'));

   await writeDepsFile(Platform.script,
       Uri.base.resolveUri(new Uri.file("$outDir.d")), platformFinalLocation,
       packages: packages,
       platform: platform,
       extraDependencies: deps,
       verbose: false);

   await new File.fromUri(platform).rename(platformFinalLocation.toFilePath());
 }

 /// Writes a file, creating the directory if needed.
 void _writeSync(String filePath, String contents) {
   var outDir = new Directory(path.dirname(filePath));
   if (!outDir.existsSync()) outDir.createSync(recursive: true);

   new File(filePath).writeAsStringSync(contents);
 }

 /// Merges dart:* library code with code from *_patch.dart file.
 ///
 /// Takes a list of the library's parts contents, with the main library contents
 /// first in the list, and the contents of the patch file.
 ///
 /// The result will have `@patch` implementations merged into the correct place
 /// (e.g. the class or top-level function declaration) and all other
 /// declarations introduced by the patch will be placed into the main library
 /// file.
 ///
 /// This is purely a syntactic transformation. Unlike dart2js patch files, there
 /// is no semantic meaning given to the *_patch files, and they do not magically
 /// get their own library scope, etc.
 ///
 /// Editorializing: the dart2js approach requires a Dart front end such as
 /// package:analyzer to semantically model a feature beyond what is specified
 /// in the Dart language. Since this feature is only for the convenience of
 /// writing the dart:* libraries, and not a tool given to Dart developers, it
 /// seems like a non-ideal situation. Instead we keep the preprocessing simple.
 List<String> _patchLibrary(
     String name, List<String> partsContents, String patchContents) {
   var results = <StringEditBuffer>[];

   // Parse the patch first. We'll need to extract bits of this as we go through
   // the other files.
   final patchFinder = new PatchFinder.parseAndVisit(name, patchContents);

   // Merge `external` declarations with the corresponding `@patch` code.
   for (var partContent in partsContents) {
     var partEdits = new StringEditBuffer(partContent);
     var partUnit = parseCompilationUnit(partContent);
     partUnit.accept(new PatchApplier(partEdits, patchFinder));
     results.add(partEdits);
   }

   if (patchFinder.patches.length != patchFinder.applied.length) {
     print('Some elements marked as @patch do not have corresponding elements:');
     for (var patched in patchFinder.patches.keys) {
       if (!patchFinder.applied.contains(patched)) {
         print('*** ${patched}');
       }
     }
     throw "Failed to apply all @patch-es";
   }

   return new List<String>.from(results.map((e) => e.toString()));
 }

 final String injectedCidFields = [
   'Array',
   'ExternalOneByteString',
   'GrowableObjectArray',
   'ImmutableArray',
   'OneByteString',
   'TwoByteString',
   'Bigint'
 ].map((name) => "static final int cid${name} = 0;").join('\n');

 /// Merge `@patch` declarations into `external` declarations.
 class PatchApplier extends GeneralizingAstVisitor {
   final StringEditBuffer edits;
   final PatchFinder patch;

   bool _isLibrary = true; // until proven otherwise.

   PatchApplier(this.edits, this.patch);

   @override
   visitCompilationUnit(CompilationUnit node) {
     super.visitCompilationUnit(node);
     if (_isLibrary) _mergeUnpatched(node);
   }

   void _merge(AstNode node, int pos) {
     var code = patch.contents.substring(node.offset, node.end);

     // We inject a number of static fields into dart:internal.ClassID class.
     // These fields represent various VM class ids and are only used to
     // make core libraries compile. Kernel reader will actually ignore these
     // fields and instead inject concrete constants into this class.
     if (node is ClassDeclaration && node.name.name == 'ClassID') {
       code = code.replaceFirst(new RegExp(r'}$'), injectedCidFields + '}');
     }
     edits.insert(pos, '\n' + code);
   }

   /// Merges directives and declarations that are not `@patch` into the library.
   void _mergeUnpatched(CompilationUnit unit) {
     // Merge imports from the patch
     // TODO(jmesserly): remove duplicate imports

     // To patch a library, we must have a library directive
     var libDir = unit.directives.first as LibraryDirective;
     int importPos = unit.directives
         .lastWhere((d) => d is ImportDirective, orElse: () => libDir)
         .end;
     for (var d in patch.unit.directives.where((d) => d is ImportDirective)) {
       _merge(d, importPos);
     }

     int partPos = unit.directives.last.end;
     for (var d in patch.unit.directives.where((d) => d is PartDirective)) {
       _merge(d, partPos);
     }

     // Merge declarations from the patch
     int declPos = edits.original.length;
     for (var d in patch.mergeDeclarations) {
       _merge(d, declPos);
     }
   }

   @override
   visitPartOfDirective(PartOfDirective node) {
     _isLibrary = false;
   }

   @override
   visitFunctionDeclaration(FunctionDeclaration node) {
     _maybePatch(node);
   }

   /// Merge patches and extensions into the class
   @override
   visitClassDeclaration(ClassDeclaration node) {
     node.members.forEach(_maybePatch);

     var mergeMembers = patch.mergeMembers[_qualifiedName(node)];
     if (mergeMembers == null) return;

     // Merge members from the patch
     var pos = node.members.last.end;
     for (var member in mergeMembers) {
       var code = patch.contents.substring(member.offset, member.end);
       edits.insert(pos, '\n\n  ' + code);
     }
   }

   void _maybePatch(AstNode node) {
     if (node is FieldDeclaration) return;

     var externalKeyword = (node as dynamic).externalKeyword;

     var name = _qualifiedName(node);
     var patchNode = patch.patches[name];
     if (patchNode == null) {
       if (externalKeyword != null) {
         print('warning: patch not found for $name: $node');
       }
       return;
     }
     patch.applied.add(name);

     Annotation patchMeta = patchNode.metadata.lastWhere(_isPatchAnnotation);
     int start = patchMeta.endToken.next.offset;
     var code = patch.contents.substring(start, patchNode.end);

     // For some node like static fields, the node's offset doesn't include
     // the external keyword. Also starting from the keyword lets us preserve
     // documentation comments.
     edits.replace(externalKeyword?.offset ?? node.offset, node.end, code);
   }
 }

 class PatchFinder extends GeneralizingAstVisitor {
   final String contents;
   final CompilationUnit unit;

   final Map patches = <String, Declaration>{};
   final Map mergeMembers = <String, List<ClassMember>>{};
   final List mergeDeclarations = <CompilationUnitMember>[];
   final Set<String> applied = new Set<String>();

   PatchFinder.parseAndVisit(String name, String contents)
       : contents = contents,
         unit = parseCompilationUnit(contents, name: name) {
     visitCompilationUnit(unit);
   }

   @override
   visitCompilationUnitMember(CompilationUnitMember node) {
     mergeDeclarations.add(node);
   }

   @override
   visitClassDeclaration(ClassDeclaration node) {
     if (_isPatch(node)) {
       var members = <ClassMember>[];
       for (var member in node.members) {
         if (_isPatch(member)) {
           patches[_qualifiedName(member)] = member;
         } else {
           members.add(member);
         }
       }
       if (members.isNotEmpty) {
         mergeMembers[_qualifiedName(node)] = members;
       }
     } else {
       mergeDeclarations.add(node);
     }
   }

   @override
   visitFunctionDeclaration(FunctionDeclaration node) {
     if (_isPatch(node)) {
       patches[_qualifiedName(node)] = node;
     } else {
       mergeDeclarations.add(node);
     }
   }

   @override
   visitFunctionBody(node) {} // skip method bodies
 }

 String _qualifiedName(Declaration node) {
   var parent = node.parent;
   var className = '';
   if (parent is ClassDeclaration) {
     className = parent.name.name + '.';
   }
   var name = (node as dynamic).name;
   name = (name != null ? name.name : '');

   var accessor = '';
   if (node is MethodDeclaration) {
     if (node.isGetter)
       accessor = 'get:';
     else if (node.isSetter) accessor = 'set:';
   }
   return className + accessor + name;
 }

 bool _isPatch(AnnotatedNode node) => node.metadata.any(_isPatchAnnotation);

 bool _isPatchAnnotation(Annotation m) =>
     m.name.name == 'patch' && m.constructorName == null && m.arguments == null;

 /// Editable string buffer.
 ///
 /// Applies a series of edits (insertions, removals, replacements) using
 /// original location information, and composes them into the edited string.
 ///
 /// For example, starting with a parsed AST with original source locations,
 /// this type allows edits to be made without regards to other edits.
 class StringEditBuffer {
   final String original;
   final _edits = <_StringEdit>[];

   /// Creates a new transaction.
   StringEditBuffer(this.original);

   bool get hasEdits => _edits.length > 0;

   /// Edit the original text, replacing text on the range [begin] and
   /// exclusive [end] with the [replacement] string.
   void replace(int begin, int end, String replacement) {
     _edits.add(new _StringEdit(begin, end, replacement));
   }

   /// Insert [string] at [offset].
   /// Equivalent to `replace(offset, offset, string)`.
   void insert(int offset, String string) => replace(offset, offset, string);

   /// Remove text from the range [begin] to exclusive [end].
   /// Equivalent to `replace(begin, end, '')`.
   void remove(int begin, int end) => replace(begin, end, '');

   /// Applies all pending [edit]s and returns a new string.
   ///
   /// This method is non-destructive: it does not discard existing edits or
   /// change the [original] string. Further edits can be added and this method
   /// can be called again.
   ///
   /// Throws [UnsupportedError] if the edits were overlapping. If no edits were
   /// made, the original string will be returned.
   String toString() {
     var sb = new StringBuffer();
     if (_edits.length == 0) return original;

     // Sort edits by start location.
     _edits.sort();

     int consumed = 0;
     for (var edit in _edits) {
       if (consumed > edit.begin) {
         sb = new StringBuffer();
         sb.write('overlapping edits. Insert at offset ');
         sb.write(edit.begin);
         sb.write(' but have consumed ');
         sb.write(consumed);
         sb.write(' input characters. List of edits:');
         for (var e in _edits) {
           sb.write('\n    ');
           sb.write(e);
         }
         throw new UnsupportedError(sb.toString());
       }

       // Add characters from the original string between this edit and the last
       // one, if any.
       var betweenEdits = original.substring(consumed, edit.begin);
       sb.write(betweenEdits);
       sb.write(edit.replace);
       consumed = edit.end;
     }

     // Add any text from the end of the original string that was not replaced.
     sb.write(original.substring(consumed));
     return sb.toString();
   }
 }

 class _StringEdit implements Comparable<_StringEdit> {
   final int begin;
   final int end;
   final String replace;

   _StringEdit(this.begin, this.end, this.replace);

   int get length => end - begin;

   String toString() => '(Edit @ $begin,$end: "$replace")';

   int compareTo(_StringEdit other) {
     int diff = begin - other.begin;
     if (diff != 0) return diff;
     return end - other.end;
   }
 }

 List<SdkLibrary> _getSdkLibraries(String contents) {
   var libraryBuilder = new SdkLibrariesReader_LibraryBuilder(true);
   parseCompilationUnit(contents).accept(libraryBuilder);
   return libraryBuilder.librariesMap.sdkLibraries;
 }
	#!/usr/bin/env dart
	// Copyright (c) 2015, 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.

	/// Command line tool to merge the SDK libraries and our patch files.
	/// This is currently designed as an offline tool, but we could automate it.

	import 'dart:io';
	import 'dart:isolate' show RawReceivePort;
	import 'dart:async';
	import 'dart:math' as math;

	import 'package:analyzer/analyzer.dart';
	import 'package:analyzer/src/generated/sdk.dart';
	import 'package:path/path.dart' as path;

	import 'package:front_end/src/fasta/fasta.dart'
	show compilePlatform, writeDepsFile;

	/// Set of input files that were read by this script to generate patched SDK.
	/// We will dump it out into the depfile for ninja to use.
	///
	/// For more information see GN and Ninja references:
	/// https://chromium.googlesource.com/chromium/src/+/56807c6cb383140af0c03da8f6731d77785d7160/tools/gn/docs/reference.md#depfile_string_File-name-for-input-dependencies-for-actions
	/// https://ninja-build.org/manual.html#_depfile
	///
	final deps = new Set<Uri>();

	/// Create [File] object from the given path and register it as a dependency.
	File getInputFile(String path, {canBeMissing: false}) {
	final file = new File(path);
	if (!file.existsSync()) {
	if (!canBeMissing) throw "patch_sdk.dart expects all inputs to exist";
	return null;
	}
	deps.add(Uri.base.resolveUri(file.uri));
	return file;
	}

	/// Read the given file synchronously as a string and register this path as
	/// a dependency.
	String readInputFile(String path, {canBeMissing: false}) =>
	getInputFile(path, canBeMissing: canBeMissing)?.readAsStringSync();

	Future main(List<String> argv) async {
	var port = new RawReceivePort();
	try {
	await _main(argv);
	} finally {
	port.close();
	}
	}

	Future _main(List<String> argv) async {
	var base = path.fromUri(Platform.script);
	var dartDir = path.dirname(path.dirname(path.absolute(base)));

	if (argv.length != 5 \|\| argv.first != 'vm') {
	final self = path.relative(base);
	print('Usage: $self vm SDK_DIR PATCH_DIR OUTPUT_DIR PACKAGES');

	final repositoryDir = path.relative(path.dirname(path.dirname(base)));
	final sdkExample = path.relative(path.join(repositoryDir, 'sdk'));
	final patchExample = path.relative(
	path.join(repositoryDir, 'out', 'DebugX64', 'obj', 'gen', 'patch'));
	final outExample = path.relative(path.join(
	repositoryDir, 'out', 'DebugX64', 'obj', 'gen', 'patched_sdk'));
	print('For example:');
	print('\$ $self vm $sdkExample $patchExample $outExample');

	exit(1);
	}

	var mode = argv[0];
	assert(mode == "vm");
	var input = argv[1];
	var sdkLibIn = path.join(input, 'lib');
	var patchIn = argv[2];
	var outDir = argv[3];
	var sdkOut = path.join(outDir, 'lib');
	var packagesFile = argv[4];

	// Copy and patch libraries.dart and version
	var libContents = readInputFile(path.join(
	sdkLibIn, '_internal', 'sdk_library_metadata', 'lib', 'libraries.dart'));
	libContents = libContents.replaceAll(
	' libraries = const {',
	''' libraries = const {

	"_builtin": const LibraryInfo(
	"_builtin/_builtin.dart",
	categories: "Client,Server",
	implementation: true,
	documented: false,
	platforms: VM_PLATFORM),

	"profiler": const LibraryInfo(
	"profiler/profiler.dart",
	maturity: Maturity.DEPRECATED,
	documented: false),

	"_vmservice": const LibraryInfo(
	"vmservice/vmservice.dart",
	implementation: true,
	documented: false,
	platforms: VM_PLATFORM),

	"vmservice_io": const LibraryInfo(
	"vmservice_io/vmservice_io.dart",
	implementation: true,
	documented: false,
	platforms: VM_PLATFORM),

	''');
	_writeSync(
	path.join(
	sdkOut, '_internal', 'sdk_library_metadata', 'lib', 'libraries.dart'),
	libContents);

	// Parse libraries.dart
	var sdkLibraries = _getSdkLibraries(libContents);

	// Enumerate core libraries and apply patches
	for (SdkLibrary library in sdkLibraries) {
	if (library.isDart2JsLibrary) {
	continue;
	}

	var libraryOut = path.join(sdkLibIn, library.path);
	var libraryIn = libraryOut;

	var libraryFile = getInputFile(libraryIn, canBeMissing: true);
	if (libraryFile != null) {
	var outPaths = <String>[libraryOut];
	var libraryContents = libraryFile.readAsStringSync();

	int inputModifyTime =
	libraryFile.lastModifiedSync().millisecondsSinceEpoch;
	var partFiles = <File>[];
	for (var part in parseDirectives(libraryContents).directives) {
	if (part is PartDirective) {
	var partPath = part.uri.stringValue;
	outPaths.add(path.join(path.dirname(libraryOut), partPath));

	var partFile =
	getInputFile(path.join(path.dirname(libraryIn), partPath));
	partFiles.add(partFile);
	inputModifyTime = math.max(inputModifyTime,
	partFile.lastModifiedSync().millisecondsSinceEpoch);
	}
	}

	// See if we can find a patch file.
	var patchPath = path.join(
	patchIn, path.basenameWithoutExtension(libraryIn) + '_patch.dart');

	var patchFile = getInputFile(patchPath, canBeMissing: true);
	if (patchFile != null) {
	inputModifyTime = math.max(inputModifyTime,
	patchFile.lastModifiedSync().millisecondsSinceEpoch);
	}

	// Compute output paths
	outPaths = outPaths
	.map((p) => path.join(sdkOut, path.relative(p, from: sdkLibIn)))
	.toList();

	// Compare output modify time with input modify time.
	bool needsUpdate = false;
	for (var outPath in outPaths) {
	var outFile = new File(outPath);
	if (!outFile.existsSync() \|\|
	outFile.lastModifiedSync().millisecondsSinceEpoch <
	inputModifyTime) {
	needsUpdate = true;
	break;
	}
	}

	if (needsUpdate) {
	var contents = <String>[libraryContents];
	contents.addAll(partFiles.map((f) => f.readAsStringSync()));
	if (patchFile != null) {
	var patchContents = patchFile.readAsStringSync();
	contents = _patchLibrary(patchFile.path, contents, patchContents);
	}

	for (var i = 0; i < outPaths.length; i++) {
	_writeSync(outPaths[i], contents[i]);
	}
	}
	}
	}

	for (var tuple in [
	['_builtin', 'builtin.dart']
	]) {
	var vmLibrary = tuple[0];
	var dartFile = tuple[1];

	// The "dart:_builtin" library is only available for the DartVM.
	var builtinLibraryIn = path.join(dartDir, 'runtime', 'bin', dartFile);
	var builtinLibraryOut = path.join(sdkOut, vmLibrary, '${vmLibrary}.dart');
	_writeSync(builtinLibraryOut, readInputFile(builtinLibraryIn));
	}

	for (var file in ['loader.dart', 'server.dart', 'vmservice_io.dart']) {
	var libraryIn = path.join(dartDir, 'runtime', 'bin', 'vmservice', file);
	var libraryOut = path.join(sdkOut, 'vmservice_io', file);
	_writeSync(libraryOut, readInputFile(libraryIn));
	}

	Uri platform = Uri.base
	.resolveUri(new Uri.directory(outDir).resolve('platform.dill.tmp'));
	Uri packages = Uri.base.resolveUri(new Uri.file(packagesFile));
	await compilePlatform(
	Uri.base.resolveUri(new Uri.directory(outDir)), platform,
	packages: packages, verbose: false);

	Uri platformFinalLocation =
	Uri.base.resolveUri(new Uri.directory(outDir).resolve('platform.dill'));

	await writeDepsFile(Platform.script,
	Uri.base.resolveUri(new Uri.file("$outDir.d")), platformFinalLocation,
	packages: packages,
	platform: platform,
	extraDependencies: deps,
	verbose: false);

	await new File.fromUri(platform).rename(platformFinalLocation.toFilePath());
	}

	/// Writes a file, creating the directory if needed.
	void _writeSync(String filePath, String contents) {
	var outDir = new Directory(path.dirname(filePath));
	if (!outDir.existsSync()) outDir.createSync(recursive: true);

	new File(filePath).writeAsStringSync(contents);
	}

	/// Merges dart:* library code with code from *_patch.dart file.
	///
	/// Takes a list of the library's parts contents, with the main library contents
	/// first in the list, and the contents of the patch file.
	///
	/// The result will have `@patch` implementations merged into the correct place
	/// (e.g. the class or top-level function declaration) and all other
	/// declarations introduced by the patch will be placed into the main library
	/// file.
	///
	/// This is purely a syntactic transformation. Unlike dart2js patch files, there
	/// is no semantic meaning given to the *_patch files, and they do not magically
	/// get their own library scope, etc.
	///
	/// Editorializing: the dart2js approach requires a Dart front end such as
	/// package:analyzer to semantically model a feature beyond what is specified
	/// in the Dart language. Since this feature is only for the convenience of
	/// writing the dart:* libraries, and not a tool given to Dart developers, it
	/// seems like a non-ideal situation. Instead we keep the preprocessing simple.
	List<String> _patchLibrary(
	String name, List<String> partsContents, String patchContents) {
	var results = <StringEditBuffer>[];

	// Parse the patch first. We'll need to extract bits of this as we go through
	// the other files.
	final patchFinder = new PatchFinder.parseAndVisit(name, patchContents);

	// Merge `external` declarations with the corresponding `@patch` code.
	for (var partContent in partsContents) {
	var partEdits = new StringEditBuffer(partContent);
	var partUnit = parseCompilationUnit(partContent);
	partUnit.accept(new PatchApplier(partEdits, patchFinder));
	results.add(partEdits);
	}

	if (patchFinder.patches.length != patchFinder.applied.length) {
	print('Some elements marked as @patch do not have corresponding elements:');
	for (var patched in patchFinder.patches.keys) {
	if (!patchFinder.applied.contains(patched)) {
	print('*** ${patched}');
	}
	}
	throw "Failed to apply all @patch-es";
	}

	return new List<String>.from(results.map((e) => e.toString()));
	}

	final String injectedCidFields = [
	'Array',
	'ExternalOneByteString',
	'GrowableObjectArray',
	'ImmutableArray',
	'OneByteString',
	'TwoByteString',
	'Bigint'
	].map((name) => "static final int cid${name} = 0;").join('\n');

	/// Merge `@patch` declarations into `external` declarations.
	class PatchApplier extends GeneralizingAstVisitor {
	final StringEditBuffer edits;
	final PatchFinder patch;

	bool _isLibrary = true; // until proven otherwise.

	PatchApplier(this.edits, this.patch);

	@override
	visitCompilationUnit(CompilationUnit node) {
	super.visitCompilationUnit(node);
	if (_isLibrary) _mergeUnpatched(node);
	}

	void _merge(AstNode node, int pos) {
	var code = patch.contents.substring(node.offset, node.end);

	// We inject a number of static fields into dart:internal.ClassID class.
	// These fields represent various VM class ids and are only used to
	// make core libraries compile. Kernel reader will actually ignore these
	// fields and instead inject concrete constants into this class.
	if (node is ClassDeclaration && node.name.name == 'ClassID') {
	code = code.replaceFirst(new RegExp(r'}$'), injectedCidFields + '}');
	}
	edits.insert(pos, '\n' + code);
	}

	/// Merges directives and declarations that are not `@patch` into the library.
	void _mergeUnpatched(CompilationUnit unit) {
	// Merge imports from the patch
	// TODO(jmesserly): remove duplicate imports

	// To patch a library, we must have a library directive
	var libDir = unit.directives.first as LibraryDirective;
	int importPos = unit.directives
	.lastWhere((d) => d is ImportDirective, orElse: () => libDir)
	.end;
	for (var d in patch.unit.directives.where((d) => d is ImportDirective)) {
	_merge(d, importPos);
	}

	int partPos = unit.directives.last.end;
	for (var d in patch.unit.directives.where((d) => d is PartDirective)) {
	_merge(d, partPos);
	}

	// Merge declarations from the patch
	int declPos = edits.original.length;
	for (var d in patch.mergeDeclarations) {
	_merge(d, declPos);
	}
	}

	@override
	visitPartOfDirective(PartOfDirective node) {
	_isLibrary = false;
	}

	@override
	visitFunctionDeclaration(FunctionDeclaration node) {
	_maybePatch(node);
	}

	/// Merge patches and extensions into the class
	@override
	visitClassDeclaration(ClassDeclaration node) {
	node.members.forEach(_maybePatch);

	var mergeMembers = patch.mergeMembers[_qualifiedName(node)];
	if (mergeMembers == null) return;

	// Merge members from the patch
	var pos = node.members.last.end;
	for (var member in mergeMembers) {
	var code = patch.contents.substring(member.offset, member.end);
	edits.insert(pos, '\n\n ' + code);
	}
	}

	void _maybePatch(AstNode node) {
	if (node is FieldDeclaration) return;

	var externalKeyword = (node as dynamic).externalKeyword;

	var name = _qualifiedName(node);
	var patchNode = patch.patches[name];
	if (patchNode == null) {
	if (externalKeyword != null) {
	print('warning: patch not found for $name: $node');
	}
	return;
	}
	patch.applied.add(name);

	Annotation patchMeta = patchNode.metadata.lastWhere(_isPatchAnnotation);
	int start = patchMeta.endToken.next.offset;
	var code = patch.contents.substring(start, patchNode.end);

	// For some node like static fields, the node's offset doesn't include
	// the external keyword. Also starting from the keyword lets us preserve
	// documentation comments.
	edits.replace(externalKeyword?.offset ?? node.offset, node.end, code);
	}
	}

	class PatchFinder extends GeneralizingAstVisitor {
	final String contents;
	final CompilationUnit unit;

	final Map patches = <String, Declaration>{};
	final Map mergeMembers = <String, List<ClassMember>>{};
	final List mergeDeclarations = <CompilationUnitMember>[];
	final Set<String> applied = new Set<String>();

	PatchFinder.parseAndVisit(String name, String contents)
	: contents = contents,
	unit = parseCompilationUnit(contents, name: name) {
	visitCompilationUnit(unit);
	}

	@override
	visitCompilationUnitMember(CompilationUnitMember node) {
	mergeDeclarations.add(node);
	}

	@override
	visitClassDeclaration(ClassDeclaration node) {
	if (_isPatch(node)) {
	var members = <ClassMember>[];
	for (var member in node.members) {
	if (_isPatch(member)) {
	patches[_qualifiedName(member)] = member;
	} else {
	members.add(member);
	}
	}
	if (members.isNotEmpty) {
	mergeMembers[_qualifiedName(node)] = members;
	}
	} else {
	mergeDeclarations.add(node);
	}
	}

	@override
	visitFunctionDeclaration(FunctionDeclaration node) {
	if (_isPatch(node)) {
	patches[_qualifiedName(node)] = node;
	} else {
	mergeDeclarations.add(node);
	}
	}

	@override
	visitFunctionBody(node) {} // skip method bodies
	}

	String _qualifiedName(Declaration node) {
	var parent = node.parent;
	var className = '';
	if (parent is ClassDeclaration) {
	className = parent.name.name + '.';
	}
	var name = (node as dynamic).name;
	name = (name != null ? name.name : '');

	var accessor = '';
	if (node is MethodDeclaration) {
	if (node.isGetter)
	accessor = 'get:';
	else if (node.isSetter) accessor = 'set:';
	}
	return className + accessor + name;
	}

	bool _isPatch(AnnotatedNode node) => node.metadata.any(_isPatchAnnotation);

	bool _isPatchAnnotation(Annotation m) =>
	m.name.name == 'patch' && m.constructorName == null && m.arguments == null;

	/// Editable string buffer.
	///
	/// Applies a series of edits (insertions, removals, replacements) using
	/// original location information, and composes them into the edited string.
	///
	/// For example, starting with a parsed AST with original source locations,
	/// this type allows edits to be made without regards to other edits.
	class StringEditBuffer {
	final String original;
	final _edits = <_StringEdit>[];

	/// Creates a new transaction.
	StringEditBuffer(this.original);

	bool get hasEdits => _edits.length > 0;

	/// Edit the original text, replacing text on the range [begin] and
	/// exclusive [end] with the [replacement] string.
	void replace(int begin, int end, String replacement) {
	_edits.add(new _StringEdit(begin, end, replacement));
	}

	/// Insert [string] at [offset].
	/// Equivalent to `replace(offset, offset, string)`.
	void insert(int offset, String string) => replace(offset, offset, string);

	/// Remove text from the range [begin] to exclusive [end].
	/// Equivalent to `replace(begin, end, '')`.
	void remove(int begin, int end) => replace(begin, end, '');

	/// Applies all pending [edit]s and returns a new string.
	///
	/// This method is non-destructive: it does not discard existing edits or
	/// change the [original] string. Further edits can be added and this method
	/// can be called again.
	///
	/// Throws [UnsupportedError] if the edits were overlapping. If no edits were
	/// made, the original string will be returned.
	String toString() {
	var sb = new StringBuffer();
	if (_edits.length == 0) return original;

	// Sort edits by start location.
	_edits.sort();

	int consumed = 0;
	for (var edit in _edits) {
	if (consumed > edit.begin) {
	sb = new StringBuffer();
	sb.write('overlapping edits. Insert at offset ');
	sb.write(edit.begin);
	sb.write(' but have consumed ');
	sb.write(consumed);
	sb.write(' input characters. List of edits:');
	for (var e in _edits) {
	sb.write('\n ');
	sb.write(e);
	}
	throw new UnsupportedError(sb.toString());
	}

	// Add characters from the original string between this edit and the last
	// one, if any.
	var betweenEdits = original.substring(consumed, edit.begin);
	sb.write(betweenEdits);
	sb.write(edit.replace);
	consumed = edit.end;
	}

	// Add any text from the end of the original string that was not replaced.
	sb.write(original.substring(consumed));
	return sb.toString();
	}
	}

	class _StringEdit implements Comparable<_StringEdit> {
	final int begin;
	final int end;
	final String replace;

	_StringEdit(this.begin, this.end, this.replace);

	int get length => end - begin;

	String toString() => '(Edit @ $begin,$end: "$replace")';

	int compareTo(_StringEdit other) {
	int diff = begin - other.begin;
	if (diff != 0) return diff;
	return end - other.end;
	}
	}

	List<SdkLibrary> _getSdkLibraries(String contents) {
	var libraryBuilder = new SdkLibrariesReader_LibraryBuilder(true);
	parseCompilationUnit(contents).accept(libraryBuilder);
	return libraryBuilder.librariesMap.sdkLibraries;
	}