blob: 620472b57efda66b4a63b5fc367e1f4a21af6746 [file] [log] [blame]
// 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.
// See ../snippets/README.md for documentation.
// To run this, from the root of the Flutter repository:
// bin/cache/dart-sdk/bin/dart dev/bots/analyze_sample_code.dart
// @dart= 2.14
import 'dart:async';
import 'dart:collection';
import 'dart:convert';
import 'dart:io';
import 'package:args/args.dart';
import 'package:path/path.dart' as path;
import 'package:watcher/watcher.dart';
// If you update this version, also update it in dev/bots/docs.sh
const String _snippetsActivateVersion = '0.2.5';
final String _flutterRoot = path.dirname(path.dirname(path.dirname(path.fromUri(Platform.script))));
final String _defaultFlutterPackage = path.join(_flutterRoot, 'packages', 'flutter', 'lib');
final String _defaultDartUiLocation = path.join(_flutterRoot, 'bin', 'cache', 'pkg', 'sky_engine', 'lib', 'ui');
final String _flutter = path.join(_flutterRoot, 'bin', Platform.isWindows ? 'flutter.bat' : 'flutter');
Future<void> main(List<String> arguments) async {
final ArgParser argParser = ArgParser();
argParser.addOption(
'temp',
help: 'A location where temporary files may be written. Defaults to a '
'directory in the system temp folder. If specified, will not be '
'automatically removed at the end of execution.',
);
argParser.addFlag(
'verbose',
negatable: false,
help: 'Print verbose output for the analysis process.',
);
argParser.addOption(
'dart-ui-location',
defaultsTo: _defaultDartUiLocation,
help: 'A location where the dart:ui dart files are to be found. Defaults to '
'the sky_engine directory installed in this flutter repo. This '
'is typically the engine/src/flutter/lib/ui directory in an engine dev setup. '
'Implies --include-dart-ui.',
);
argParser.addFlag(
'include-dart-ui',
defaultsTo: true,
help: 'Includes the dart:ui code supplied by the engine in the analysis.',
);
argParser.addFlag(
'help',
negatable: false,
help: 'Print help for this command.',
);
argParser.addOption(
'interactive',
abbr: 'i',
help: 'Analyzes the sample code in the specified file interactively.',
);
argParser.addFlag(
'global-activate-snippets',
defaultsTo: true,
help: 'Whether or not to "pub global activate" the snippets package. If set, will '
'activate version $_snippetsActivateVersion',
);
final ArgResults parsedArguments = argParser.parse(arguments);
if (parsedArguments['help'] as bool) {
print(argParser.usage);
print('See dev/snippets/README.md for documentation.');
exit(0);
}
Directory flutterPackage;
if (parsedArguments.rest.length == 1) {
// Used for testing.
flutterPackage = Directory(parsedArguments.rest.single);
} else {
flutterPackage = Directory(_defaultFlutterPackage);
}
final bool includeDartUi = parsedArguments.wasParsed('dart-ui-location') || parsedArguments['include-dart-ui'] as bool;
late Directory dartUiLocation;
if (((parsedArguments['dart-ui-location'] ?? '') as String).isNotEmpty) {
dartUiLocation = Directory(
path.absolute(parsedArguments['dart-ui-location'] as String));
} else {
dartUiLocation = Directory(_defaultDartUiLocation);
}
if (!dartUiLocation.existsSync()) {
stderr.writeln('Unable to find dart:ui directory ${dartUiLocation.path}');
exit(-1);
}
Directory? tempDirectory;
if (parsedArguments.wasParsed('temp')) {
final String tempArg = parsedArguments['temp'] as String;
tempDirectory = Directory(path.join(Directory.systemTemp.absolute.path, path.basename(tempArg)));
if (path.basename(tempArg) != tempArg) {
stderr.writeln('Supplied temporary directory name should be a name, not a path. Using ${tempDirectory.absolute.path} instead.');
}
print('Leaving temporary output in ${tempDirectory.absolute.path}.');
// Make sure that any directory left around from a previous run is cleared
// out.
if (tempDirectory.existsSync()) {
tempDirectory.deleteSync(recursive: true);
}
tempDirectory.createSync();
}
if (parsedArguments['global-activate-snippets']! as bool) {
try {
final ProcessResult activateResult = Process.runSync(
Platform.resolvedExecutable,
<String>[
'pub',
'global',
'activate',
'snippets',
_snippetsActivateVersion,
],
workingDirectory: _flutterRoot,
);
if (activateResult.exitCode != 0) {
exit(activateResult.exitCode);
}
} on ProcessException catch (e) {
stderr.writeln('Unable to global activate snippets package at version $_snippetsActivateVersion: $e');
exit(1);
}
}
if (parsedArguments['interactive'] != null) {
await _runInteractive(
tempDir: tempDirectory,
flutterPackage: flutterPackage,
filePath: parsedArguments['interactive'] as String,
dartUiLocation: includeDartUi ? dartUiLocation : null,
);
} else {
try {
exitCode = await SampleChecker(
flutterPackage,
tempDirectory: tempDirectory,
verbose: parsedArguments['verbose'] as bool,
dartUiLocation: includeDartUi ? dartUiLocation : null,
).checkSamples();
} on SampleCheckerException catch (e) {
stderr.write(e);
exit(1);
}
}
}
typedef TaskQueueClosure<T> = Future<T> Function();
class _TaskQueueItem<T> {
_TaskQueueItem(this._closure, this._completer, {this.onComplete});
final TaskQueueClosure<T> _closure;
final Completer<T> _completer;
void Function()? onComplete;
Future<void> run() async {
try {
_completer.complete(await _closure());
} catch (e, st) {
_completer.completeError(e, st);
} finally {
onComplete?.call();
}
}
}
/// A task queue of Futures to be completed in parallel, throttling
/// the number of simultaneous tasks.
///
/// The tasks return results of type T.
class TaskQueue<T> {
/// Creates a task queue with a maximum number of simultaneous jobs.
/// The [maxJobs] parameter defaults to the number of CPU cores on the
/// system.
TaskQueue({int? maxJobs})
: maxJobs = maxJobs ?? Platform.numberOfProcessors;
/// The maximum number of jobs that this queue will run simultaneously.
final int maxJobs;
final Queue<_TaskQueueItem<T>> _pendingTasks = Queue<_TaskQueueItem<T>>();
final Set<_TaskQueueItem<T>> _activeTasks = <_TaskQueueItem<T>>{};
final Set<Completer<void>> _completeListeners = <Completer<void>>{};
/// Returns a future that completes when all tasks in the [TaskQueue] are
/// complete.
Future<void> get tasksComplete {
// In case this is called when there are no tasks, we want it to
// signal complete immediately.
if (_activeTasks.isEmpty && _pendingTasks.isEmpty) {
return Future<void>.value();
}
final Completer<void> completer = Completer<void>();
_completeListeners.add(completer);
return completer.future;
}
/// Adds a single closure to the task queue, returning a future that
/// completes when the task completes.
Future<T> add(TaskQueueClosure<T> task) {
final Completer<T> completer = Completer<T>();
_pendingTasks.add(_TaskQueueItem<T>(task, completer));
if (_activeTasks.length < maxJobs) {
_processTask();
}
return completer.future;
}
// Process a single task.
void _processTask() {
if (_pendingTasks.isNotEmpty && _activeTasks.length <= maxJobs) {
final _TaskQueueItem<T> item = _pendingTasks.removeFirst();
_activeTasks.add(item);
item.onComplete = () {
_activeTasks.remove(item);
_processTask();
};
item.run();
} else {
_checkForCompletion();
}
}
void _checkForCompletion() {
if (_activeTasks.isEmpty && _pendingTasks.isEmpty) {
for (final Completer<void> completer in _completeListeners) {
if (!completer.isCompleted) {
completer.complete();
}
}
_completeListeners.clear();
}
}
}
class SampleCheckerException implements Exception {
SampleCheckerException(this.message, {this.file, this.line});
final String message;
final String? file;
final int? line;
@override
String toString() {
if (file != null || line != null) {
final String fileStr = file == null ? '' : '$file:';
final String lineStr = line == null ? '' : '$line:';
return '$fileStr$lineStr Error: $message';
} else {
return 'Error: $message';
}
}
}
class AnalysisResult {
const AnalysisResult(this.exitCode, this.errors);
final int exitCode;
final Map<String, List<AnalysisError>> errors;
}
/// Checks samples and code snippets for analysis errors.
///
/// Extracts dartdoc content from flutter package source code, identifies code
/// sections, and writes them to a temporary directory, where 'flutter analyze'
/// is used to analyze the sources for problems. If problems are found, the
/// error output from the analyzer is parsed for details, and the problem
/// locations are translated back to the source location.
///
/// For samples, the samples are generated using the snippets tool, and they
/// are analyzed with the snippets. If errors are found in samples, then the
/// line number of the start of the sample is given instead of the actual error
/// line, since samples get reformatted when written, and the line numbers
/// don't necessarily match. It does, however, print the source of the
/// problematic line.
class SampleChecker {
/// Creates a [SampleChecker].
///
/// The positional argument is the path to the package directory for the
/// flutter package within the Flutter root dir.
///
/// The optional `tempDirectory` argument supplies the location for the
/// temporary files to be written and analyzed. If not supplied, it defaults
/// to a system generated temp directory.
///
/// The optional `verbose` argument indicates whether or not status output
/// should be emitted while doing the check.
///
/// The optional `dartUiLocation` argument indicates the location of the
/// `dart:ui` code to be analyzed along with the framework code. If not
/// supplied, the default location of the `dart:ui` code in the Flutter
/// repository is used (i.e. "<flutter repo>/bin/cache/pkg/sky_engine/lib/ui").
SampleChecker(
this._flutterPackage, {
Directory? tempDirectory,
this.verbose = false,
Directory? dartUiLocation,
}) : _tempDirectory = tempDirectory ?? Directory.systemTemp.createTempSync('flutter_analyze_sample_code.'),
_keepTmp = tempDirectory != null,
_dartUiLocation = dartUiLocation;
/// The prefix of each comment line
static const String _dartDocPrefix = '///';
/// The prefix of each comment line with a space appended.
static const String _dartDocPrefixWithSpace = '$_dartDocPrefix ';
/// A RegExp that matches the beginning of a dartdoc snippet or sample.
static final RegExp _dartDocSampleBeginRegex = RegExp(r'{@tool (sample|snippet|dartpad)(?:| ([^}]*))}');
/// A RegExp that matches the end of a dartdoc snippet or sample.
static final RegExp _dartDocSampleEndRegex = RegExp(r'{@end-tool}');
/// A RegExp that matches the start of a code block within dartdoc.
static final RegExp _codeBlockStartRegex = RegExp(r'///\s+```dart.*$');
/// A RegExp that matches the end of a code block within dartdoc.
static final RegExp _codeBlockEndRegex = RegExp(r'///\s+```\s*$');
/// A RegExp that matches a Dart constructor.
static final RegExp _constructorRegExp = RegExp(r'(const\s+)?_*[A-Z][a-zA-Z0-9<>._]*\(');
/// A RegExp that matches a dart version specification in an example preamble.
static final RegExp _dartVersionRegExp = RegExp(r'\/\/ \/\/ @dart = ([0-9]+\.[0-9]+)');
/// Whether or not to print verbose output.
final bool verbose;
/// Whether or not to keep the temp directory around after running.
///
/// Defaults to false.
final bool _keepTmp;
/// The temporary directory where all output is written. This will be deleted
/// automatically if there are no errors.
final Directory _tempDirectory;
/// The package directory for the flutter package within the flutter root dir.
final Directory _flutterPackage;
/// The directory for the dart:ui code to be analyzed with the flutter code.
///
/// If this is null, then no dart:ui code is included in the analysis. It
/// defaults to the location inside of the flutter bin/cache directory that
/// contains the dart:ui code supplied by the engine.
final Directory? _dartUiLocation;
/// A serial number so that we can create unique expression names when we
/// generate them.
int _expressionId = 0;
static List<File> _listDartFiles(Directory directory, {bool recursive = false}) {
return directory.listSync(recursive: recursive, followLinks: false).whereType<File>().where((File file) => path.extension(file.path) == '.dart').toList();
}
/// Computes the headers needed for each sample file.
List<Line> get headers {
return _headers ??= <String>[
'// ignore_for_file: directives_ordering',
'// ignore_for_file: unnecessary_import',
'// ignore_for_file: unused_import',
'// ignore_for_file: unused_element',
'// ignore_for_file: unused_local_variable',
"import 'dart:async';",
"import 'dart:convert';",
"import 'dart:math' as math;",
"import 'dart:typed_data';",
"import 'dart:ui' as ui;",
"import 'package:flutter_test/flutter_test.dart';",
for (final File file in _listDartFiles(Directory(_defaultFlutterPackage)))
"import 'package:flutter/${path.basename(file.path)}';",
].map<Line>((String code) => Line.generated(code: code, filename: 'headers')).toList();
}
List<Line>? _headers;
/// Checks all the samples in the Dart files in [_flutterPackage] for errors.
Future<int> checkSamples() async {
AnalysisResult? analysisResult;
try {
final Map<String, Section> sections = <String, Section>{};
final Map<String, Sample> snippets = <String, Sample>{};
if (_dartUiLocation != null && !_dartUiLocation!.existsSync()) {
stderr.writeln('Unable to analyze engine dart samples at ${_dartUiLocation!.path}.');
}
final List<File> filesToAnalyze = <File>[
..._listDartFiles(_flutterPackage, recursive: true),
if (_dartUiLocation != null && _dartUiLocation!.existsSync()) ... _listDartFiles(_dartUiLocation!, recursive: true),
];
await _extractSamples(filesToAnalyze, sectionMap: sections, sampleMap: snippets);
analysisResult = _analyze(_tempDirectory, sections, snippets);
} finally {
if (analysisResult != null && analysisResult.errors.isNotEmpty) {
for (final String filePath in analysisResult.errors.keys) {
analysisResult.errors[filePath]!.forEach(stderr.writeln);
}
stderr.writeln('\nFound ${analysisResult.errors.length} sample code errors.');
}
if (_keepTmp) {
print('Leaving temporary directory ${_tempDirectory.path} around for your perusal.');
} else {
try {
_tempDirectory.deleteSync(recursive: true);
} on FileSystemException catch (e) {
stderr.writeln('Failed to delete ${_tempDirectory.path}: $e');
}
}
}
return analysisResult.exitCode;
}
/// Creates a name for the snippets tool to use for the snippet ID from a
/// filename and starting line number.
String _createNameFromSource(String prefix, String filename, int start) {
String sampleId = path.split(filename).join('.');
sampleId = path.basenameWithoutExtension(sampleId);
sampleId = '$prefix.$sampleId.$start';
return sampleId;
}
// The cached JSON Flutter version information from 'flutter --version --machine'.
String? _flutterVersion;
Future<Process> _runSnippetsScript(List<String> args) async {
final String workingDirectory = path.join(_flutterRoot, 'dev', 'docs');
if (_flutterVersion == null) {
// Capture the flutter version information once so that the snippets tool doesn't
// have to run it for every snippet.
if (verbose) {
print(<String>[_flutter, '--version', '--machine'].join(' '));
}
final ProcessResult versionResult = Process.runSync(_flutter, <String>['--version', '--machine']);
if (verbose) {
stdout.write(versionResult.stdout);
stderr.write(versionResult.stderr);
}
_flutterVersion = versionResult.stdout as String? ?? '';
}
if (verbose) {
print(<String>[
Platform.resolvedExecutable,
'pub',
'global',
'run',
'snippets',
...args,
].join(' '));
}
return Process.start(
Platform.resolvedExecutable,
<String>[
'pub',
'global',
'run',
'snippets',
...args,
],
workingDirectory: workingDirectory,
environment: <String, String>{
if (!Platform.environment.containsKey('FLUTTER_ROOT')) 'FLUTTER_ROOT': _flutterRoot,
if (_flutterVersion!.isNotEmpty) 'FLUTTER_VERSION': _flutterVersion!,
},
);
}
/// Writes out the given sample to an output file in the [_tempDirectory] and
/// returns the output file.
Future<File> _writeSample(Sample sample) async {
// Generate the snippet.
final String sampleId = _createNameFromSource('sample', sample.start.filename, sample.start.line);
final String inputName = '$sampleId.input';
// Now we have a filename like 'lib.src.material.foo_widget.123.dart' for each snippet.
final String inputFilePath = path.join(_tempDirectory.path, inputName);
if (verbose) {
stdout.writeln('Creating $inputFilePath.');
}
final File inputFile = File(inputFilePath)..createSync(recursive: true);
if (verbose) {
stdout.writeln('Writing $inputFilePath.');
}
inputFile.writeAsStringSync(sample.input.join('\n'));
final File outputFile = File(path.join(_tempDirectory.path, '$sampleId.dart'));
final List<String> args = <String>[
'--output=${outputFile.absolute.path}',
'--input=${inputFile.absolute.path}',
// Formatting the output will fail on analysis errors, and we want it to fail
// here, not there.
'--no-format-output',
...sample.args,
];
if (verbose) {
print('Generating sample for ${sample.start.filename}:${sample.start.line}');
}
final Process process = await _runSnippetsScript(args);
if (verbose) {
process.stdout.transform(utf8.decoder).forEach(stdout.write);
}
process.stderr.transform(utf8.decoder).forEach(stderr.write);
const Duration timeoutDuration = Duration(minutes: 5);
final int exitCode = await process.exitCode.timeout(timeoutDuration, onTimeout: () {
stderr.writeln('Snippet script timed out after $timeoutDuration.');
return -1;
});
if (exitCode != 0) {
throw SampleCheckerException(
'Unable to create sample for ${sample.start.filename}:${sample.start.line} '
'(using input from ${inputFile.path}).',
file: sample.start.filename,
line: sample.start.line,
);
}
return outputFile;
}
/// Extracts the samples from the Dart files in [files], writes them
/// to disk, and adds them to the appropriate [sectionMap] or [sampleMap].
Future<void> _extractSamples(
List<File> files, {
required Map<String, Section> sectionMap,
required Map<String, Sample> sampleMap,
bool silent = false,
}) async {
final List<Section> sections = <Section>[];
final List<Sample> samples = <Sample>[];
int dartpadCount = 0;
int sampleCount = 0;
for (final File file in files) {
final String relativeFilePath = path.relative(file.path, from: _flutterRoot);
final List<String> sampleLines = file.readAsLinesSync();
final List<Section> preambleSections = <Section>[];
// Whether or not we're in the file-wide preamble section ("Examples can assume").
bool inPreamble = false;
// Whether or not we're in a code sample
bool inSampleSection = false;
// Whether or not we're in a snippet code sample (with template) specifically.
bool inSnippet = false;
// Whether or not we're in a '```dart' segment.
bool inDart = false;
String? dartVersionOverride;
int lineNumber = 0;
final List<String> block = <String>[];
List<String> snippetArgs = <String>[];
late Line startLine;
for (final String line in sampleLines) {
lineNumber += 1;
final String trimmedLine = line.trim();
if (inSnippet) {
if (!trimmedLine.startsWith(_dartDocPrefix)) {
throw SampleCheckerException('Snippet section unterminated.', file: relativeFilePath, line: lineNumber);
}
if (_dartDocSampleEndRegex.hasMatch(trimmedLine)) {
samples.add(
Sample(
start: startLine,
input: block,
args: snippetArgs,
serial: samples.length,
),
);
snippetArgs = <String>[];
block.clear();
inSnippet = false;
inSampleSection = false;
} else {
block.add(line.replaceFirst(RegExp(r'\s*/// ?'), ''));
}
} else if (inPreamble) {
if (line.isEmpty) {
inPreamble = false;
// If there's only a dartVersionOverride in the preamble, don't add
// it as a section. The dartVersionOverride was processed below.
if (dartVersionOverride == null || block.isNotEmpty) {
preambleSections.add(_processBlock(startLine, block));
}
block.clear();
} else if (!line.startsWith('// ')) {
throw SampleCheckerException('Unexpected content in sample code preamble.', file: relativeFilePath, line: lineNumber);
} else if (_dartVersionRegExp.hasMatch(line)) {
dartVersionOverride = line.substring(3);
} else {
block.add(line.substring(3));
}
} else if (inSampleSection) {
if (_dartDocSampleEndRegex.hasMatch(trimmedLine)) {
if (inDart) {
throw SampleCheckerException("Dart section didn't terminate before end of sample", file: relativeFilePath, line: lineNumber);
}
inSampleSection = false;
}
if (inDart) {
if (_codeBlockEndRegex.hasMatch(trimmedLine)) {
inDart = false;
final Section processed = _processBlock(startLine, block);
final Section combinedSection = preambleSections.isEmpty ? processed : Section.combine(preambleSections..add(processed));
sections.add(combinedSection.copyWith(dartVersionOverride: dartVersionOverride));
block.clear();
} else if (trimmedLine == _dartDocPrefix) {
block.add('');
} else {
final int index = line.indexOf(_dartDocPrefixWithSpace);
if (index < 0) {
throw SampleCheckerException(
'Dart section inexplicably did not contain "$_dartDocPrefixWithSpace" prefix.',
file: relativeFilePath,
line: lineNumber,
);
}
block.add(line.substring(index + 4));
}
} else if (_codeBlockStartRegex.hasMatch(trimmedLine)) {
assert(block.isEmpty);
startLine = Line(
filename: relativeFilePath,
line: lineNumber + 1,
indent: line.indexOf(_dartDocPrefixWithSpace) + _dartDocPrefixWithSpace.length,
);
inDart = true;
}
}
if (!inSampleSection) {
final RegExpMatch? sampleMatch = _dartDocSampleBeginRegex.firstMatch(trimmedLine);
if (line == '// Examples can assume:') {
assert(block.isEmpty);
startLine = Line.generated(filename: relativeFilePath, line: lineNumber + 1, indent: 3);
inPreamble = true;
} else if (sampleMatch != null) {
inSnippet = sampleMatch != null && (sampleMatch[1] == 'sample' || sampleMatch[1] == 'dartpad');
if (inSnippet) {
if (sampleMatch[1] == 'sample') {
sampleCount++;
}
if (sampleMatch[1] == 'dartpad') {
dartpadCount++;
}
startLine = Line(
filename: relativeFilePath,
line: lineNumber + 1,
indent: line.indexOf(_dartDocPrefixWithSpace) + _dartDocPrefixWithSpace.length,
);
if (sampleMatch[2] != null) {
// There are arguments to the snippet tool to keep track of.
snippetArgs = _splitUpQuotedArgs(sampleMatch[2]!).toList();
} else {
snippetArgs = <String>[];
}
}
inSampleSection = !inSnippet;
} else if (RegExp(r'///\s*#+\s+[Ss]ample\s+[Cc]ode:?$').hasMatch(trimmedLine)) {
throw SampleCheckerException(
"Found deprecated '## Sample code' section: use {@tool snippet}...{@end-tool} instead.",
file: relativeFilePath,
line: lineNumber,
);
}
}
}
}
if (!silent)
print('Found ${sections.length} snippet code blocks, '
'$sampleCount sample code sections, and '
'$dartpadCount dartpad sections.');
for (final Section section in sections) {
final String path = _writeSection(section).path;
if (sectionMap != null)
sectionMap[path] = section;
}
final TaskQueue<File> sampleQueue = TaskQueue<File>();
for (final Sample sample in samples) {
final Future<File> futureFile = sampleQueue.add(() => _writeSample(sample));
if (sampleMap != null) {
sampleQueue.add(() async {
final File snippetFile = await futureFile;
sample.contents = await snippetFile.readAsLines();
sampleMap[snippetFile.absolute.path] = sample;
return futureFile;
});
}
}
await sampleQueue.tasksComplete;
}
/// Helper to process arguments given as a (possibly quoted) string.
///
/// First, this will split the given [argsAsString] into separate arguments,
/// taking any quoting (either ' or " are accepted) into account, including
/// handling backslash-escaped quotes.
///
/// Then, it will prepend "--" to any args that start with an identifier
/// followed by an equals sign, allowing the argument parser to treat any
/// "foo=bar" argument as "--foo=bar" (which is a dartdoc-ism).
Iterable<String> _splitUpQuotedArgs(String argsAsString) {
// Regexp to take care of splitting arguments, and handling the quotes
// around arguments, if any.
//
// Match group 1 is the "foo=" (or "--foo=") part of the option, if any.
// Match group 2 contains the quote character used (which is discarded).
// Match group 3 is a quoted arg, if any, without the quotes.
// Match group 4 is the unquoted arg, if any.
final RegExp argMatcher = RegExp(r'([a-zA-Z\-_0-9]+=)?' // option name
r'(?:' // Start a new non-capture group for the two possibilities.
r'''(["'])((?:\\{2})*|(?:.*?[^\\](?:\\{2})*))\2|''' // with quotes.
r'([^ ]+))'); // without quotes.
final Iterable<Match> matches = argMatcher.allMatches(argsAsString);
// Remove quotes around args, and if convertToArgs is true, then for any
// args that look like assignments (start with valid option names followed
// by an equals sign), add a "--" in front so that they parse as options.
return matches.map<String>((Match match) {
String option = '';
if (match[1] != null && !match[1]!.startsWith('-')) {
option = '--';
}
if (match[2] != null) {
// This arg has quotes, so strip them.
return '$option${match[1] ?? ''}${match[3] ?? ''}${match[4] ?? ''}';
}
return '$option${match[0]}';
});
}
/// Creates the configuration files necessary for the analyzer to consider
/// the temporary directory a package, and sets which lint rules to enforce.
void _createConfigurationFiles(Directory directory) {
final File pubSpec = File(path.join(directory.path, 'pubspec.yaml'));
if (!pubSpec.existsSync()) {
pubSpec.createSync(recursive: true);
pubSpec.writeAsStringSync('''
name: analyze_sample_code
environment:
sdk: ">=2.12.0-0 <3.0.0"
dependencies:
flutter:
sdk: flutter
flutter_test:
sdk: flutter
vector_math: any
dev_dependencies:
flutter_lints: ^2.0.0
''');
}
// Import the analysis options from the Flutter root.
final File analysisOptions = File(path.join(directory.path, 'analysis_options.yaml'));
if (!analysisOptions.existsSync()) {
analysisOptions.createSync(recursive: true);
analysisOptions.writeAsStringSync('''
include: package:flutter_lints/flutter.yaml
linter:
rules:
# Samples want to print things pretty often.
avoid_print: false
analyzer:
errors:
# TODO(https://github.com/flutter/flutter/issues/74381):
# Clean up existing unnecessary imports, and remove line to ignore.
unnecessary_import: ignore
''');
}
}
/// Writes out a sample section to the disk and returns the file.
File _writeSection(Section section) {
final String sectionId = _createNameFromSource('snippet', section.start.filename, section.start.line);
final File outputFile = File(path.join(_tempDirectory.path, '$sectionId.dart'))..createSync(recursive: true);
final List<Line> mainContents = <Line>[
Line.generated(code: section.dartVersionOverride ?? '', filename: section.start.filename),
...headers,
Line.generated(filename: section.start.filename),
Line.generated(code: '// From: ${section.start.filename}:${section.start.line}', filename: section.start.filename),
...section.code,
];
outputFile.writeAsStringSync(mainContents.map<String>((Line line) => line.code).join('\n'));
return outputFile;
}
/// Invokes the analyzer on the given [directory] and returns the stdout.
int _runAnalyzer(Directory directory, {bool silent = true, required List<String> output}) {
if (!silent)
print('Starting analysis of code samples.');
_createConfigurationFiles(directory);
final ProcessResult result = Process.runSync(
_flutter,
<String>['--no-wrap', 'analyze', '--no-preamble', '--no-congratulate', '.'],
workingDirectory: directory.absolute.path,
);
final List<String> stderr = result.stderr.toString().trim().split('\n');
final List<String> stdout = result.stdout.toString().trim().split('\n');
// Remove output from building the flutter tool.
stderr.removeWhere((String line) {
return line.startsWith('Building flutter tool...')
|| line.startsWith('Waiting for another flutter command to release the startup lock...');
});
// Check out the stderr to see if the analyzer had it's own issues.
if (stderr.isNotEmpty && stderr.first.contains(RegExp(r' issues? found\. \(ran in '))) {
stderr.removeAt(0);
if (stderr.isNotEmpty && stderr.last.isEmpty) {
stderr.removeLast();
}
}
if (stderr.isNotEmpty && stderr.any((String line) => line.isNotEmpty)) {
throw 'Cannot analyze dartdocs; unexpected error output:\n$stderr';
}
if (stdout.isNotEmpty && stdout.first == 'Building flutter tool...') {
stdout.removeAt(0);
}
if (stdout.isNotEmpty && stdout.first.startsWith('Running "flutter pub get" in ')) {
stdout.removeAt(0);
}
output.addAll(stdout);
return result.exitCode;
}
/// Starts the analysis phase of checking the samples by invoking the analyzer
/// and parsing its output to create a map of filename to [AnalysisError]s.
AnalysisResult _analyze(
Directory directory,
Map<String, Section> sections,
Map<String, Sample> samples, {
bool silent = false,
}) {
final List<String> errors = <String>[];
int exitCode = _runAnalyzer(directory, silent: silent, output: errors);
final Map<String, List<AnalysisError>> analysisErrors = <String, List<AnalysisError>>{};
void addAnalysisError(File file, AnalysisError error) {
if (analysisErrors.containsKey(file.path)) {
analysisErrors[file.path]!.add(error);
} else {
analysisErrors[file.path] = <AnalysisError>[error];
}
}
final String kBullet = Platform.isWindows ? ' - ' : ' • ';
// RegExp to match an error output line of the analyzer.
final RegExp errorPattern = RegExp(
'^ +(?<type>[a-z]+)'
'$kBullet(?<description>.+)'
'$kBullet(?<file>.+):(?<line>[0-9]+):(?<column>[0-9]+)'
'$kBullet(?<code>[-a-z_]+)\$',
caseSensitive: false,
);
bool unknownAnalyzerErrors = false;
final int headerLength = headers.length + 3;
for (final String error in errors) {
final RegExpMatch? match = errorPattern.firstMatch(error);
if (match == null) {
stderr.writeln('Analyzer output: $error');
unknownAnalyzerErrors = true;
continue;
}
final String type = match.namedGroup('type')!;
final String message = match.namedGroup('description')!;
final File file = File(path.join(_tempDirectory.path, match.namedGroup('file')));
final List<String> fileContents = file.readAsLinesSync();
final bool isSnippet = path.basename(file.path).startsWith('snippet.');
final bool isSample = path.basename(file.path).startsWith('sample.');
final String line = match.namedGroup('line')!;
final String column = match.namedGroup('column')!;
final String errorCode = match.namedGroup('code')!;
final int lineNumber = int.parse(line, radix: 10) - (isSnippet ? headerLength : 0);
final int columnNumber = int.parse(column, radix: 10);
// For when errors occur outside of the things we're trying to analyze.
if (!isSnippet && !isSample) {
addAnalysisError(
file,
AnalysisError(
type,
lineNumber,
columnNumber,
message,
errorCode,
Line(
filename: file.path,
line: lineNumber,
),
),
);
throw SampleCheckerException(
'Cannot analyze dartdocs; analysis errors exist: $error',
file: file.path,
line: lineNumber,
);
}
if (isSample) {
addAnalysisError(
file,
AnalysisError(
type,
lineNumber,
columnNumber,
message,
errorCode,
null,
sample: samples[file.path],
),
);
} else {
if (lineNumber < 1 || lineNumber > fileContents.length) {
addAnalysisError(
file,
AnalysisError(
type,
lineNumber,
columnNumber,
message,
errorCode,
Line(filename: file.path, line: lineNumber),
),
);
throw SampleCheckerException('Failed to parse error message: $error', file: file.path, line: lineNumber);
}
final Section actualSection = sections[file.path]!;
if (actualSection == null) {
throw SampleCheckerException(
"Unknown section for ${file.path}. Maybe the temporary directory wasn't empty?",
file: file.path,
line: lineNumber,
);
}
final Line actualLine = actualSection.code[lineNumber - 1];
late int line;
late int column;
String errorMessage = message;
Line source = actualLine;
if (actualLine.generated) {
// Since generated lines don't appear in the original, we just provide the line
// in the generated file.
line = lineNumber - 1;
column = columnNumber;
if (errorCode == 'missing_identifier' && lineNumber > 1) {
// For a missing identifier on a generated line, it is very often because of a
// trailing comma on the previous line, and so we want to provide a better message
// and the previous line as the error location, since that appears in the original
// source, and can be more easily located.
final Line previousCodeLine = sections[file.path]!.code[lineNumber - 2];
if (previousCodeLine.code.contains(RegExp(r',\s*$'))) {
line = previousCodeLine.line;
column = previousCodeLine.indent + previousCodeLine.code.length - 1;
errorMessage = 'Unexpected comma at end of sample code.';
source = previousCodeLine;
}
}
} else {
line = actualLine.line;
column = actualLine.indent + columnNumber;
}
addAnalysisError(
file,
AnalysisError(
type,
line,
column,
errorMessage,
errorCode,
source,
),
);
}
}
if (exitCode == 1 && analysisErrors.isEmpty && !unknownAnalyzerErrors) {
exitCode = 0;
}
if (exitCode == 0) {
if (!silent)
print('No analysis errors in samples!');
assert(analysisErrors.isEmpty);
}
return AnalysisResult(exitCode, analysisErrors);
}
/// Process one block of sample code (the part inside of "```" markers).
/// Splits any sections denoted by "// ..." into separate blocks to be
/// processed separately. Uses a primitive heuristic to make sample blocks
/// into valid Dart code.
Section _processBlock(Line line, List<String> block) {
if (block.isEmpty) {
throw SampleCheckerException('$line: Empty ```dart block in sample code.');
}
if (block.first.startsWith('new ') || block.first.startsWith(_constructorRegExp)) {
_expressionId += 1;
return Section.surround(line, 'dynamic expression$_expressionId = ', block.toList(), ';');
} else if (block.first.startsWith('await ')) {
_expressionId += 1;
return Section.surround(line, 'Future<void> expression$_expressionId() async { ', block.toList(), ' }');
} else if (block.first.startsWith('class ') || block.first.startsWith('enum ')) {
return Section.fromStrings(line, block.toList());
} else if ((block.first.startsWith('_') || block.first.startsWith('final ')) && block.first.contains(' = ')) {
_expressionId += 1;
return Section.surround(line, 'void expression$_expressionId() { ', block.toList(), ' }');
} else {
final List<String> buffer = <String>[];
int subblocks = 0;
Line? subline;
final List<Section> subsections = <Section>[];
for (int index = 0; index < block.length; index += 1) {
// Each section of the dart code that is either split by a blank line, or with '// ...' is
// treated as a separate code block.
if (block[index] == '' || block[index] == '// ...') {
if (subline == null)
throw SampleCheckerException('${Line(filename: line.filename, line: line.line + index, indent: line.indent)}: '
'Unexpected blank line or "// ..." line near start of subblock in sample code.');
subblocks += 1;
subsections.add(_processBlock(subline, buffer));
buffer.clear();
assert(buffer.isEmpty);
subline = null;
} else if (block[index].startsWith('// ')) {
if (buffer.length > 1) // don't include leading comments
buffer.add('/${block[index]}'); // so that it doesn't start with "// " and get caught in this again
} else {
subline ??= Line(
code: block[index],
filename: line.filename,
line: line.line + index,
indent: line.indent,
);
buffer.add(block[index]);
}
}
if (subblocks > 0) {
if (subline != null) {
subsections.add(_processBlock(subline, buffer));
}
// Combine all of the subsections into one section, now that they've been processed.
return Section.combine(subsections);
} else {
return Section.fromStrings(line, block.toList());
}
}
}
}
/// A class to represent a line of input code.
class Line {
const Line({this.code = '', required this.filename, this.line = -1, this.indent = 0})
: generated = false;
const Line.generated({this.code = '', required this.filename, this.line = -1, this.indent = 0})
: generated = true;
/// The file that this line came from, or the file that the line was generated for, if [generated] is true.
final String filename;
final int line;
final int indent;
final String code;
final bool generated;
String toStringWithColumn(int column) {
if (column != null && indent != null) {
return '$filename:$line:${column + indent}: $code';
}
return toString();
}
@override
String toString() => '$filename:$line: $code';
}
/// A class to represent a section of sample code, marked by "{@tool snippet}...{@end-tool}".
class Section {
const Section(this.code, {this.dartVersionOverride});
factory Section.combine(List<Section> sections) {
final List<Line> code = sections
.expand((Section section) => section.code)
.toList();
return Section(code);
}
factory Section.fromStrings(Line firstLine, List<String> code) {
final List<Line> codeLines = <Line>[];
for (int i = 0; i < code.length; ++i) {
codeLines.add(
Line(
code: code[i],
filename: firstLine.filename,
line: firstLine.line + i,
indent: firstLine.indent,
),
);
}
return Section(codeLines);
}
factory Section.surround(Line firstLine, String prefix, List<String> code, String postfix) {
assert(prefix != null);
assert(postfix != null);
final List<Line> codeLines = <Line>[];
for (int i = 0; i < code.length; ++i) {
codeLines.add(
Line(
code: code[i],
filename: firstLine.filename,
line: firstLine.line + i,
indent: firstLine.indent,
),
);
}
return Section(<Line>[
Line.generated(code: prefix, filename: firstLine.filename, line: 0),
...codeLines,
Line.generated(code: postfix, filename: firstLine.filename, line: 0),
]);
}
Line get start => code.firstWhere((Line line) => !line.generated);
final List<Line> code;
final String? dartVersionOverride;
Section copyWith({String? dartVersionOverride}) {
return Section(code, dartVersionOverride: dartVersionOverride ?? this.dartVersionOverride);
}
}
/// A class to represent a sample in the dartdoc comments, marked by
/// "{@tool sample ...}...{@end-tool}". Samples are processed separately from
/// regular snippets, because they must be injected into templates in order to be
/// analyzed.
class Sample {
Sample({
required this.start,
required List<String> input,
required List<String> args,
required this.serial,
}) : input = input.toList(),
args = args.toList(),
contents = <String>[];
final Line start;
final int serial;
List<String> input;
List<String> args;
List<String> contents;
@override
String toString() {
final StringBuffer buf = StringBuffer('sample ${args.join(' ')}\n');
int count = start.line;
for (final String line in input) {
buf.writeln(' ${count.toString().padLeft(4)}: $line');
count++;
}
return buf.toString();
}
}
/// A class representing an analysis error along with the context of the error.
///
/// Changes how it converts to a string based on the source of the error.
class AnalysisError {
const AnalysisError(
this.type,
this.line,
this.column,
this.message,
this.errorCode,
this.source, {
this.sample,
});
final String type;
final int line;
final int column;
final String message;
final String errorCode;
final Line? source;
final Sample? sample;
@override
String toString() {
if (source != null) {
return '${source!.toStringWithColumn(column)}\n>>> $type: $message ($errorCode)';
} else if (sample != null) {
return 'In sample starting at '
'${sample!.start.filename}:${sample!.start.line}:${sample!.contents[line - 1]}\n'
'>>> $type: $message ($errorCode)';
} else {
return '<source unknown>:$line:$column\n>>> $type: $message ($errorCode)';
}
}
}
Future<void> _runInteractive({
required Directory? tempDir,
required Directory flutterPackage,
required String filePath,
required Directory? dartUiLocation,
}) async {
filePath = path.isAbsolute(filePath) ? filePath : path.join(path.current, filePath);
final File file = File(filePath);
if (!file.existsSync()) {
throw 'Path ${file.absolute.path} does not exist ($filePath).';
}
if (!path.isWithin(_flutterRoot, file.absolute.path) &&
(dartUiLocation == null || !path.isWithin(dartUiLocation.path, file.absolute.path))) {
throw 'Path ${file.absolute.path} is not within the flutter root: '
'$_flutterRoot${dartUiLocation != null ? ' or the dart:ui location: $dartUiLocation' : ''}';
}
if (tempDir == null) {
tempDir = Directory.systemTemp.createTempSync('flutter_analyze_sample_code.');
ProcessSignal.sigint.watch().listen((_) {
print('Deleting temp files...');
tempDir!.deleteSync(recursive: true);
exit(0);
});
print('Using temp dir ${tempDir.path}');
}
print('Starting up in interactive mode on ${path.relative(filePath, from: _flutterRoot)} ...');
Future<void> analyze(SampleChecker checker, File file) async {
final Map<String, Section> sections = <String, Section>{};
final Map<String, Sample> snippets = <String, Sample>{};
await checker._extractSamples(<File>[file], silent: true, sectionMap: sections, sampleMap: snippets);
final AnalysisResult analysisResult = checker._analyze(checker._tempDirectory, sections, snippets, silent: true);
stderr.writeln('\u001B[2J\u001B[H'); // Clears the old results from the terminal.
if (analysisResult.errors.isNotEmpty) {
for (final String filePath in analysisResult.errors.keys) {
analysisResult.errors[filePath]!.forEach(stderr.writeln);
}
stderr.writeln('\nFound ${analysisResult.errors.length} errors.');
} else {
stderr.writeln('\nNo issues found.');
}
}
final SampleChecker checker = SampleChecker(flutterPackage, tempDirectory: tempDir)
.._createConfigurationFiles(tempDir);
await analyze(checker, file);
print('Type "q" to quit, or "r" to delete temp dir and manually reload.');
void rerun() {
print('\n\nRerunning...');
try {
analyze(checker, file);
} on SampleCheckerException catch (e) {
print('Caught Exception (${e.runtimeType}), press "r" to retry:\n$e');
}
}
stdin.lineMode = false;
stdin.echoMode = false;
stdin.transform(utf8.decoder).listen((String input) {
switch (input) {
case 'q':
print('Exiting...');
exit(0);
case 'r':
print('Deleting temp files...');
tempDir!.deleteSync(recursive: true);
rerun();
break;
}
});
Watcher(file.absolute.path).events.listen((_) => rerun());
}