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

 // Copyright (c) 2014, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 library status_clean;

 import "dart:async";
 import "dart:convert" show json, utf8;
 import "dart:io";
 import "testing/dart/multitest.dart";
 import "testing/dart/status_file_parser.dart";
 import "testing/dart/test_suite.dart"
     show
         multiHtmlTestGroupRegExp,
         multiTestRegExp,
         multiHtmlTestRegExp,
         TestUtils;
 import "testing/dart/utils.dart" show Path;

 // [STATUS_TUPLES] is a list of (suite-name, directory, status-file)-tuples.
 final STATUS_TUPLES = [
   ["corelib_2", "tests/corelib_2", "tests/corelib_2/corelib_2.status"],
   ["corelib", "tests/corelib", "tests/corelib/corelib.status"],
   ["html", "tests/html", "tests/html/html.status"],
   ["isolate", "tests/isolate", "tests/isolate/isolate.status"],
   ["language", "tests/language", "tests/language/language.status"],
   ["language", "tests/language", "tests/language/language_analyzer2.status"],
   ["language", "tests/language", "tests/language/language_analyzer.status"],
   ["language", "tests/language", "tests/language/language_dart2js.status"],
   ["lib", "tests/lib", "tests/lib/lib.status"],
   ["standalone", "tests/standalone", "tests/standalone/standalone.status"],
   ["pkg", "pkg", "pkg/pkg.status"],
   ["utils", "tests/utils", "tests/utils/utils.status"],
   ["samples", "samples", "samples/samples.status"],
   ["analyze_library", "sdk", "tests/lib/analyzer/analyze_library.status"],
   [
     "dart2js_extra",
     "tests/compiler/dart2js_extra",
     "tests/compiler/dart2js_extra/dart2js_extra.status"
   ],
   [
     "dart2js_native",
     "tests/compiler/dart2js_native",
     "tests/compiler/dart2js_native/dart2js_native.status"
   ],
   [
     "dart2js",
     "tests/compiler/dart2js",
     "tests/compiler/dart2js/dart2js.status"
   ],
   [
     "benchmark_smoke",
     "tests/benchmark_smoke",
     "tests/benchmark_smoke/benchmark_smoke.status"
   ],
   ["co19", "tests/co19/src", "tests/co19/co19-analyzer2.status"],
   ["co19", "tests/co19/src", "tests/co19/co19-analyzer.status"],
   ["co19", "tests/co19/src", "tests/co19/co19-dart2js.status"],
   ["co19", "tests/co19/src", "tests/co19/co19-co19.status"],
   ["co19", "tests/co19/src", "tests/co19/co19-dartium.status"],
   ["co19", "tests/co19/src", "tests/co19/co19-runtime.status"],
 ];

 void main(List<String> args) {
   TestUtils.setDartDirUri(Platform.script.resolve('..'));
   usage() {
     print("Usage: ${Platform.executable} <deflake|remove-nonexistent-tests>");
     exit(1);
   }

   if (args.length == 0) usage();

   if (args[0] == 'deflake') {
     run(new StatusFileDeflaker());
   } else if (args[0] == 'remove-nonexistent-tests') {
     run(new StatusFileNonExistentTestRemover());
   } else {
     usage();
   }
 }

 run(StatusFileProcessor processor) {
   Future.forEach(STATUS_TUPLES, (List tuple) {
     String suiteName = tuple[0];
     String directory = tuple[1];
     String filePath = tuple[2];
     print("Processing $filePath");
     return processor.run(suiteName, directory, filePath);
   });
 }

 abstract class StatusFileProcessor {
   Future run(String suiteName, String directory, String filePath);

   Future<List<Section>> _readSections(String filePath) {
     File file = new File(filePath);

     if (file.existsSync()) {
       var completer = new Completer();
       List<Section> sections = new List<Section>();

       ReadConfigurationInto(new Path(file.path), sections, () {
         completer.complete(sections);
       });
       return completer.future;
     }
     return new Future.value([]);
   }
 }

 class StatusFileNonExistentTestRemover extends StatusFileProcessor {
   final MultiTestDetector multiTestDetector = new MultiTestDetector();
   final TestFileLister testFileLister = new TestFileLister();

   Future run(String suiteName, String directory, String filePath) {
     return _readSections(filePath).then((List<Section> sections) {
       Set<int> invalidLines = _analyzeStatusFile(directory, filePath, sections);
       if (invalidLines.length > 0) {
         return _writeFixedStatusFile(filePath, invalidLines);
       }
       return new Future.value();
     });
   }

   bool _testExists(String filePath, List<String> testFiles, String directory,
       TestRule rule) {
     // TODO: Unify this regular expression matching with status_file_parser.dart
     List<RegExp> getRuleRegex(String name) {
       return name
           .split("/")
           .map((name) => new RegExp(name.replaceAll('*', '.*')))
           .toList();
     }

     bool matchRegexp(List<RegExp> patterns, String str) {
       var parts = str.split("/");
       if (patterns.length > parts.length) {
         return false;
       }
       // NOTE: patterns.length <= parts.length
       for (var i = 0; i < patterns.length; i++) {
         if (!patterns[i].hasMatch(parts[i])) {
           return false;
         }
       }
       return true;
     }

     var rulePattern = getRuleRegex(rule.name);
     return testFiles.any((String file) {
       // TODO: Use test_suite.dart's [buildTestCaseDisplayName] instead.
       var filePath = new Path(file).relativeTo(new Path(directory));
       String baseTestName = _concat(
           "${filePath.directoryPath}", "${filePath.filenameWithoutExtension}");

       List<String> testNames = [];
       for (var name in multiTestDetector.getMultitestNames(file)) {
         testNames.add(_concat(baseTestName, name));
       }

       // If it is not a multitest the testname is [baseTestName]
       if (testNames.isEmpty) {
         testNames.add(baseTestName);
       }

       return testNames
           .any((String testName) => matchRegexp(rulePattern, testName));
     });
   }

   Set<int> _analyzeStatusFile(
       String directory, String filePath, List<Section> sections) {
     var invalidLines = new Set<int>();
     var dartFiles = testFileLister.listTestFiles(directory);
     for (var section in sections) {
       for (var rule in section.testRules) {
         if (!_testExists(filePath, dartFiles, directory, rule)) {
           print("Invalid rule: ${rule.name} in file "
               "$filePath:${rule.lineNumber}");
           invalidLines.add(rule.lineNumber);
         }
       }
     }
     return invalidLines;
   }

   _writeFixedStatusFile(String statusFilePath, Set<int> invalidLines) {
     var lines = new File(statusFilePath).readAsLinesSync();
     var outputLines = <String>[];
     for (int i = 0; i < lines.length; i++) {
       // The status file parser numbers lines starting with 1, not 0.
       if (!invalidLines.contains(i + 1)) {
         outputLines.add(lines[i]);
       }
     }
     var outputFile = new File("$statusFilePath.fixed");
     outputFile.writeAsStringSync(outputLines.join("\n"));
   }

   String _concat(String base, String part) {
     if (base == "") return part;
     if (part == "") return base;
     return "$base/$part";
   }
 }

 class StatusFileDeflaker extends StatusFileProcessor {
   TestOutcomeFetcher _testOutcomeFetcher = new TestOutcomeFetcher();

   Future run(String suiteName, String directory, String filePath) {
     return _readSections(filePath).then((List<Section> sections) {
       return _generatedDeflakedLines(suiteName, sections)
           .then((Map<int, String> fixedLines) {
         if (fixedLines.length > 0) {
           return _writeFixedStatusFile(filePath, fixedLines);
         }
       });
     });
   }

   Future _generatedDeflakedLines(String suiteName, List<Section> sections) {
     var fixedLines = new Map<int, String>();
     return Future.forEach(sections, (Section section) {
       return Future.forEach(section.testRules, (rule) {
         return _maybeFixStatusfileLine(suiteName, section, rule, fixedLines);
       });
     }).then((_) => fixedLines);
   }

   Future _maybeFixStatusfileLine(String suiteName, Section section,
       TestRule rule, Map<int, String> fixedLines) {
     print("Processing ${section.statusFile.location}: ${rule.lineNumber}");
     // None of our status file lines have expressions, so we pass {} here.
     var notedOutcomes = rule.expression
         .evaluate({})
         .map((name) => Expectation.byName(name))
         .where((Expectation expectation) => !expectation.isMetaExpectation)
         .toSet();

     if (notedOutcomes.isEmpty) return new Future.value();

     // TODO: [rule.name] is actually a pattern not just a testname. We should
     // find all possible testnames this rule matches against and unify the
     // outcomes of these tests.
     return _testOutcomeFetcher
         .outcomesOf(suiteName, section, rule.name)
         .then((Set<Expectation> actualOutcomes) {
       var outcomesThatNeverHappened = new Set<Expectation>();
       for (Expectation notedOutcome in notedOutcomes) {
         bool found = false;
         for (Expectation actualOutcome in actualOutcomes) {
           if (actualOutcome.canBeOutcomeOf(notedOutcome)) {
             found = true;
             break;
           }
         }
         if (!found) {
           outcomesThatNeverHappened.add(notedOutcome);
         }
       }

       if (outcomesThatNeverHappened.length > 0 && actualOutcomes.length > 0) {
         // Print the change to stdout.
         print("${rule.name} "
             "(${section.statusFile.location}:${rule.lineNumber}):");
         print("   Actual outcomes:         ${actualOutcomes.toList()}");
         print("   Outcomes in status file: ${notedOutcomes.toList()}");
         print("   Outcomes in status file that never happened : "
             "${outcomesThatNeverHappened.toList()}\n");

         // Build the fixed status file line.
         fixedLines[rule.lineNumber] =
             '${rule.name}: ${actualOutcomes.join(', ')} '
             '# before: ${notedOutcomes.join(', ')} / '
             'never happened:  ${outcomesThatNeverHappened.join(', ')}';
       }
     });
   }

   _writeFixedStatusFile(String filePath, Map<int, String> fixedLines) {
     var lines = new File(filePath).readAsLinesSync();
     var outputLines = <String>[];
     for (int i = 0; i < lines.length; i++) {
       if (fixedLines.containsKey(i + 1)) {
         outputLines.add(fixedLines[i + 1]);
       } else {
         outputLines.add(lines[i]);
       }
     }
     var output = outputLines.join("\n");
     var outputFile = new File("$filePath.deflaked");
     outputFile.writeAsStringSync(output);
   }
 }

 class MultiTestDetector {
   final multiTestsCache = new Map<String, List<String>>();
   final multiHtmlTestsCache = new Map<String, List<String>>();

   List<String> getMultitestNames(String file) {
     List<String> names = [];
     names.addAll(getStandardMultitestNames(file));
     names.addAll(getHtmlMultitestNames(file));
     return names;
   }

   List<String> getStandardMultitestNames(String file) {
     return multiTestsCache.putIfAbsent(file, () {
       try {
         var tests = new Map<String, String>();
         var outcomes = new Map<String, Set<String>>();
         if (multiTestRegExp.hasMatch(new File(file).readAsStringSync())) {
           extractTestsFromMultitest(new Path(file), tests, outcomes);
         }
         return tests.keys.toList();
       } catch (error) {
         print("WARNING: Couldn't determine multitests in file ${file}: $error");
         return [];
       }
     });
   }

   List<String> getHtmlMultitestNames(String file) {
     return multiHtmlTestsCache.putIfAbsent(file, () {
       try {
         List<String> subtestNames = [];
         var content = new File(file).readAsStringSync();

         if (multiHtmlTestRegExp.hasMatch(content)) {
           var matchesIter =
               multiHtmlTestGroupRegExp.allMatches(content).iterator;
           while (matchesIter.moveNext()) {
             String fullMatch = matchesIter.current.group(0);
             subtestNames.add(fullMatch.substring(fullMatch.indexOf("'") + 1));
           }
         }
         return subtestNames;
       } catch (error) {
         print("WARNING: Couldn't determine multitests in file ${file}: $error");
       }
       return [];
     });
   }
 }

 class TestFileLister {
   final Map<String, List<String>> _filesCache = {};

   List<String> listTestFiles(String directory) {
     return _filesCache.putIfAbsent(directory, () {
       var dir = new Directory(directory);
       // Cannot test for _test.dart because co19 tests don't have that ending.
       var dartFiles = dir
           .listSync(recursive: true)
           .where((fe) => fe is File)
           .where((file) =>
               file.path.endsWith(".dart") || file.path.endsWith("_test.html"))
           .map((file) => file.path)
           .toList();
       return dartFiles;
     });
   }
 }

 /*
  * [TestOutcomeFetcher] will fetch test results from a server using a REST-like
  * interface.
  */
 class TestOutcomeFetcher {
   static String SERVER = '108.170.219.8';
   static int PORT = 4540;

   HttpClient _client = new HttpClient();

   Future<Set<Expectation>> outcomesOf(
       String suiteName, Section section, String testName) {
     var pathComponents = [
       'json',
       'test-outcomes',
       'outcomes',
       Uri.encodeComponent("$suiteName/$testName")
     ];
     var path = pathComponents.join('/') + '/';
     var url = new Uri(scheme: 'http', host: SERVER, port: PORT, path: path);

     return _client
         .getUrl(url)
         .then((HttpClientRequest request) => request.close())
         .then((HttpClientResponse response) {
       return response
           .transform(utf8.decoder)
           .transform(json.decoder)
           .first
           .then((List testResults) {
         var setOfActualOutcomes = new Set<Expectation>();

         try {
           for (var result in testResults) {
             var config = result['configuration'];
             var testResult = result['test_result'];
             var outcome = testResult['outcome'];

             // These variables are derived variables and will be set in
             // tools/testing/dart/test_options.dart.
             // [Mostly due to the fact that we don't have an unary !
             //  operator in status file expressions.]
             config['unchecked'] = !config['checked'];
             config['unminified'] = !config['minified'];
             config['nocsp'] = !config['csp'];
             config['browser'] = TestUtils.isBrowserRuntime(config['runtime']);
             config['analyzer'] =
                 TestUtils.isCommandLineAnalyzer(config['compiler']);
             config['jscl'] =
                 TestUtils.isJsCommandLineRuntime(config['runtime']);

             if (section.condition == null ||
                 section.condition.evaluate(config)) {
               setOfActualOutcomes.add(Expectation.byName(outcome));
             }
           }
           return setOfActualOutcomes;
         } catch (error) {
           print("Warning: Error occured while processing testoutcomes"
               ": $error");
           return [];
         }
       }).catchError((error) {
         print("Warning: Error occured while fetching testoutcomes: $error");
         return [];
       });
     });
   }
 }
	// Copyright (c) 2014, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	library status_clean;

	import "dart:async";
	import "dart:convert" show json, utf8;
	import "dart:io";
	import "testing/dart/multitest.dart";
	import "testing/dart/status_file_parser.dart";
	import "testing/dart/test_suite.dart"
	show
	multiHtmlTestGroupRegExp,
	multiTestRegExp,
	multiHtmlTestRegExp,
	TestUtils;
	import "testing/dart/utils.dart" show Path;

	// [STATUS_TUPLES] is a list of (suite-name, directory, status-file)-tuples.
	final STATUS_TUPLES = [
	["corelib_2", "tests/corelib_2", "tests/corelib_2/corelib_2.status"],
	["corelib", "tests/corelib", "tests/corelib/corelib.status"],
	["html", "tests/html", "tests/html/html.status"],
	["isolate", "tests/isolate", "tests/isolate/isolate.status"],
	["language", "tests/language", "tests/language/language.status"],
	["language", "tests/language", "tests/language/language_analyzer2.status"],
	["language", "tests/language", "tests/language/language_analyzer.status"],
	["language", "tests/language", "tests/language/language_dart2js.status"],
	["lib", "tests/lib", "tests/lib/lib.status"],
	["standalone", "tests/standalone", "tests/standalone/standalone.status"],
	["pkg", "pkg", "pkg/pkg.status"],
	["utils", "tests/utils", "tests/utils/utils.status"],
	["samples", "samples", "samples/samples.status"],
	["analyze_library", "sdk", "tests/lib/analyzer/analyze_library.status"],
	[
	"dart2js_extra",
	"tests/compiler/dart2js_extra",
	"tests/compiler/dart2js_extra/dart2js_extra.status"
	],
	[
	"dart2js_native",
	"tests/compiler/dart2js_native",
	"tests/compiler/dart2js_native/dart2js_native.status"
	],
	[
	"dart2js",
	"tests/compiler/dart2js",
	"tests/compiler/dart2js/dart2js.status"
	],
	[
	"benchmark_smoke",
	"tests/benchmark_smoke",
	"tests/benchmark_smoke/benchmark_smoke.status"
	],
	["co19", "tests/co19/src", "tests/co19/co19-analyzer2.status"],
	["co19", "tests/co19/src", "tests/co19/co19-analyzer.status"],
	["co19", "tests/co19/src", "tests/co19/co19-dart2js.status"],
	["co19", "tests/co19/src", "tests/co19/co19-co19.status"],
	["co19", "tests/co19/src", "tests/co19/co19-dartium.status"],
	["co19", "tests/co19/src", "tests/co19/co19-runtime.status"],
	];

	void main(List<String> args) {
	TestUtils.setDartDirUri(Platform.script.resolve('..'));
	usage() {
	print("Usage: ${Platform.executable} <deflake\|remove-nonexistent-tests>");
	exit(1);
	}

	if (args.length == 0) usage();

	if (args[0] == 'deflake') {
	run(new StatusFileDeflaker());
	} else if (args[0] == 'remove-nonexistent-tests') {
	run(new StatusFileNonExistentTestRemover());
	} else {
	usage();
	}
	}

	run(StatusFileProcessor processor) {
	Future.forEach(STATUS_TUPLES, (List tuple) {
	String suiteName = tuple[0];
	String directory = tuple[1];
	String filePath = tuple[2];
	print("Processing $filePath");
	return processor.run(suiteName, directory, filePath);
	});
	}

	abstract class StatusFileProcessor {
	Future run(String suiteName, String directory, String filePath);

	Future<List<Section>> _readSections(String filePath) {
	File file = new File(filePath);

	if (file.existsSync()) {
	var completer = new Completer();
	List<Section> sections = new List<Section>();

	ReadConfigurationInto(new Path(file.path), sections, () {
	completer.complete(sections);
	});
	return completer.future;
	}
	return new Future.value([]);
	}
	}

	class StatusFileNonExistentTestRemover extends StatusFileProcessor {
	final MultiTestDetector multiTestDetector = new MultiTestDetector();
	final TestFileLister testFileLister = new TestFileLister();

	Future run(String suiteName, String directory, String filePath) {
	return _readSections(filePath).then((List<Section> sections) {
	Set<int> invalidLines = _analyzeStatusFile(directory, filePath, sections);
	if (invalidLines.length > 0) {
	return _writeFixedStatusFile(filePath, invalidLines);
	}
	return new Future.value();
	});
	}

	bool _testExists(String filePath, List<String> testFiles, String directory,
	TestRule rule) {
	// TODO: Unify this regular expression matching with status_file_parser.dart
	List<RegExp> getRuleRegex(String name) {
	return name
	.split("/")
	.map((name) => new RegExp(name.replaceAll('', '.')))
	.toList();
	}

	bool matchRegexp(List<RegExp> patterns, String str) {
	var parts = str.split("/");
	if (patterns.length > parts.length) {
	return false;
	}
	// NOTE: patterns.length <= parts.length
	for (var i = 0; i < patterns.length; i++) {
	if (!patterns[i].hasMatch(parts[i])) {
	return false;
	}
	}
	return true;
	}

	var rulePattern = getRuleRegex(rule.name);
	return testFiles.any((String file) {
	// TODO: Use test_suite.dart's [buildTestCaseDisplayName] instead.
	var filePath = new Path(file).relativeTo(new Path(directory));
	String baseTestName = _concat(
	"${filePath.directoryPath}", "${filePath.filenameWithoutExtension}");

	List<String> testNames = [];
	for (var name in multiTestDetector.getMultitestNames(file)) {
	testNames.add(_concat(baseTestName, name));
	}

	// If it is not a multitest the testname is [baseTestName]
	if (testNames.isEmpty) {
	testNames.add(baseTestName);
	}

	return testNames
	.any((String testName) => matchRegexp(rulePattern, testName));
	});
	}

	Set<int> _analyzeStatusFile(
	String directory, String filePath, List<Section> sections) {
	var invalidLines = new Set<int>();
	var dartFiles = testFileLister.listTestFiles(directory);
	for (var section in sections) {
	for (var rule in section.testRules) {
	if (!_testExists(filePath, dartFiles, directory, rule)) {
	print("Invalid rule: ${rule.name} in file "
	"$filePath:${rule.lineNumber}");
	invalidLines.add(rule.lineNumber);
	}
	}
	}
	return invalidLines;
	}

	_writeFixedStatusFile(String statusFilePath, Set<int> invalidLines) {
	var lines = new File(statusFilePath).readAsLinesSync();
	var outputLines = <String>[];
	for (int i = 0; i < lines.length; i++) {
	// The status file parser numbers lines starting with 1, not 0.
	if (!invalidLines.contains(i + 1)) {
	outputLines.add(lines[i]);
	}
	}
	var outputFile = new File("$statusFilePath.fixed");
	outputFile.writeAsStringSync(outputLines.join("\n"));
	}

	String _concat(String base, String part) {
	if (base == "") return part;
	if (part == "") return base;
	return "$base/$part";
	}
	}

	class StatusFileDeflaker extends StatusFileProcessor {
	TestOutcomeFetcher _testOutcomeFetcher = new TestOutcomeFetcher();

	Future run(String suiteName, String directory, String filePath) {
	return _readSections(filePath).then((List<Section> sections) {
	return _generatedDeflakedLines(suiteName, sections)
	.then((Map<int, String> fixedLines) {
	if (fixedLines.length > 0) {
	return _writeFixedStatusFile(filePath, fixedLines);
	}
	});
	});
	}

	Future _generatedDeflakedLines(String suiteName, List<Section> sections) {
	var fixedLines = new Map<int, String>();
	return Future.forEach(sections, (Section section) {
	return Future.forEach(section.testRules, (rule) {
	return _maybeFixStatusfileLine(suiteName, section, rule, fixedLines);
	});
	}).then((_) => fixedLines);
	}

	Future _maybeFixStatusfileLine(String suiteName, Section section,
	TestRule rule, Map<int, String> fixedLines) {
	print("Processing ${section.statusFile.location}: ${rule.lineNumber}");
	// None of our status file lines have expressions, so we pass {} here.
	var notedOutcomes = rule.expression
	.evaluate({})
	.map((name) => Expectation.byName(name))
	.where((Expectation expectation) => !expectation.isMetaExpectation)
	.toSet();

	if (notedOutcomes.isEmpty) return new Future.value();

	// TODO: [rule.name] is actually a pattern not just a testname. We should
	// find all possible testnames this rule matches against and unify the
	// outcomes of these tests.
	return _testOutcomeFetcher
	.outcomesOf(suiteName, section, rule.name)
	.then((Set<Expectation> actualOutcomes) {
	var outcomesThatNeverHappened = new Set<Expectation>();
	for (Expectation notedOutcome in notedOutcomes) {
	bool found = false;
	for (Expectation actualOutcome in actualOutcomes) {
	if (actualOutcome.canBeOutcomeOf(notedOutcome)) {
	found = true;
	break;
	}
	}
	if (!found) {
	outcomesThatNeverHappened.add(notedOutcome);
	}
	}

	if (outcomesThatNeverHappened.length > 0 && actualOutcomes.length > 0) {
	// Print the change to stdout.
	print("${rule.name} "
	"(${section.statusFile.location}:${rule.lineNumber}):");
	print(" Actual outcomes: ${actualOutcomes.toList()}");
	print(" Outcomes in status file: ${notedOutcomes.toList()}");
	print(" Outcomes in status file that never happened : "
	"${outcomesThatNeverHappened.toList()}\n");

	// Build the fixed status file line.
	fixedLines[rule.lineNumber] =
	'${rule.name}: ${actualOutcomes.join(', ')} '
	'# before: ${notedOutcomes.join(', ')} / '
	'never happened: ${outcomesThatNeverHappened.join(', ')}';
	}
	});
	}

	_writeFixedStatusFile(String filePath, Map<int, String> fixedLines) {
	var lines = new File(filePath).readAsLinesSync();
	var outputLines = <String>[];
	for (int i = 0; i < lines.length; i++) {
	if (fixedLines.containsKey(i + 1)) {
	outputLines.add(fixedLines[i + 1]);
	} else {
	outputLines.add(lines[i]);
	}
	}
	var output = outputLines.join("\n");
	var outputFile = new File("$filePath.deflaked");
	outputFile.writeAsStringSync(output);
	}
	}

	class MultiTestDetector {
	final multiTestsCache = new Map<String, List<String>>();
	final multiHtmlTestsCache = new Map<String, List<String>>();

	List<String> getMultitestNames(String file) {
	List<String> names = [];
	names.addAll(getStandardMultitestNames(file));
	names.addAll(getHtmlMultitestNames(file));
	return names;
	}

	List<String> getStandardMultitestNames(String file) {
	return multiTestsCache.putIfAbsent(file, () {
	try {
	var tests = new Map<String, String>();
	var outcomes = new Map<String, Set<String>>();
	if (multiTestRegExp.hasMatch(new File(file).readAsStringSync())) {
	extractTestsFromMultitest(new Path(file), tests, outcomes);
	}
	return tests.keys.toList();
	} catch (error) {
	print("WARNING: Couldn't determine multitests in file ${file}: $error");
	return [];
	}
	});
	}

	List<String> getHtmlMultitestNames(String file) {
	return multiHtmlTestsCache.putIfAbsent(file, () {
	try {
	List<String> subtestNames = [];
	var content = new File(file).readAsStringSync();

	if (multiHtmlTestRegExp.hasMatch(content)) {
	var matchesIter =
	multiHtmlTestGroupRegExp.allMatches(content).iterator;
	while (matchesIter.moveNext()) {
	String fullMatch = matchesIter.current.group(0);
	subtestNames.add(fullMatch.substring(fullMatch.indexOf("'") + 1));
	}
	}
	return subtestNames;
	} catch (error) {
	print("WARNING: Couldn't determine multitests in file ${file}: $error");
	}
	return [];
	});
	}
	}

	class TestFileLister {
	final Map<String, List<String>> _filesCache = {};

	List<String> listTestFiles(String directory) {
	return _filesCache.putIfAbsent(directory, () {
	var dir = new Directory(directory);
	// Cannot test for _test.dart because co19 tests don't have that ending.
	var dartFiles = dir
	.listSync(recursive: true)
	.where((fe) => fe is File)
	.where((file) =>
	file.path.endsWith(".dart") \|\| file.path.endsWith("_test.html"))
	.map((file) => file.path)
	.toList();
	return dartFiles;
	});
	}
	}

	/*
	* [TestOutcomeFetcher] will fetch test results from a server using a REST-like
	* interface.
	*/
	class TestOutcomeFetcher {
	static String SERVER = '108.170.219.8';
	static int PORT = 4540;

	HttpClient _client = new HttpClient();

	Future<Set<Expectation>> outcomesOf(
	String suiteName, Section section, String testName) {
	var pathComponents = [
	'json',
	'test-outcomes',
	'outcomes',
	Uri.encodeComponent("$suiteName/$testName")
	];
	var path = pathComponents.join('/') + '/';
	var url = new Uri(scheme: 'http', host: SERVER, port: PORT, path: path);

	return _client
	.getUrl(url)
	.then((HttpClientRequest request) => request.close())
	.then((HttpClientResponse response) {
	return response
	.transform(utf8.decoder)
	.transform(json.decoder)
	.first
	.then((List testResults) {
	var setOfActualOutcomes = new Set<Expectation>();

	try {
	for (var result in testResults) {
	var config = result['configuration'];
	var testResult = result['test_result'];
	var outcome = testResult['outcome'];

	// These variables are derived variables and will be set in
	// tools/testing/dart/test_options.dart.
	// [Mostly due to the fact that we don't have an unary !
	// operator in status file expressions.]
	config['unchecked'] = !config['checked'];
	config['unminified'] = !config['minified'];
	config['nocsp'] = !config['csp'];
	config['browser'] = TestUtils.isBrowserRuntime(config['runtime']);
	config['analyzer'] =
	TestUtils.isCommandLineAnalyzer(config['compiler']);
	config['jscl'] =
	TestUtils.isJsCommandLineRuntime(config['runtime']);

	if (section.condition == null \|\|
	section.condition.evaluate(config)) {
	setOfActualOutcomes.add(Expectation.byName(outcome));
	}
	}
	return setOfActualOutcomes;
	} catch (error) {
	print("Warning: Error occured while processing testoutcomes"
	": $error");
	return [];
	}
	}).catchError((error) {
	print("Warning: Error occured while fetching testoutcomes: $error");
	return [];
	});
	});
	}
	}