blob: 540fdb5a3e478bc5b1bdfe8e7bd22a6de2100ff3 [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.
// This test runs `flutter test` on the `trivial_widget_test.dart` four times.
//
// The first time, the result is ignored, on the basis that it's warming the
// cache.
//
// The second time tests how long a regular test takes to run.
//
// Before the third time, a change is made to the implementation of one of the
// files that the test depends on (indirectly).
//
// Before the fourth time, a change is made to the interface in that same file.
import 'dart:async';
import 'dart:convert';
import 'dart:io';
import 'package:path/path.dart' as path;
import 'package:flutter_devicelab/framework/framework.dart';
import 'package:flutter_devicelab/framework/utils.dart';
// Matches the output of the "test" package, e.g.: "00:01 +1 loading foo"
final RegExp testOutputPattern = RegExp(r'^[0-9][0-9]:[0-9][0-9] \+[0-9]+: (.+?) *$');
enum TestStep {
starting,
buildingFlutterTool,
runningPubGet,
testWritesFirstCarriageReturn,
testLoading,
testRunning,
testPassed,
}
Future<int> runTest({bool coverage = false}) async {
final Stopwatch clock = Stopwatch()..start();
final List<String> arguments = flutterCommandArgs('test', <String>[
if (coverage) '--coverage',
path.join('flutter_test', 'trivial_widget_test.dart'),
]);
final Process analysis = await startProcess(
path.join(flutterDirectory.path, 'bin', 'flutter'),
arguments,
workingDirectory: path.join(flutterDirectory.path, 'dev', 'automated_tests'),
);
int badLines = 0;
TestStep step = TestStep.starting;
await for (final String entry in analysis.stdout.transform<String>(utf8.decoder).transform<String>(const LineSplitter())) {
print('test stdout ($step): $entry');
if (step == TestStep.starting && entry == 'Building flutter tool...') {
// ignore this line
step = TestStep.buildingFlutterTool;
} else if (step == TestStep.testPassed && entry.contains('Collecting coverage information...')) {
// ignore this line
} else if (step.index < TestStep.runningPubGet.index && entry == 'Running "flutter pub get" in automated_tests...') {
// ignore this line
step = TestStep.runningPubGet;
} else if (step.index < TestStep.testWritesFirstCarriageReturn.index && entry == '') {
// we have a blank line at the start
step = TestStep.testWritesFirstCarriageReturn;
} else {
final Match match = testOutputPattern.matchAsPrefix(entry);
if (match == null) {
badLines += 1;
} else {
if (step.index >= TestStep.testWritesFirstCarriageReturn.index && step.index <= TestStep.testLoading.index && match.group(1).startsWith('loading ')) {
// first the test loads
step = TestStep.testLoading;
} else if (step.index <= TestStep.testRunning.index && match.group(1) == 'A trivial widget test') {
// then the test runs
step = TestStep.testRunning;
} else if (step.index < TestStep.testPassed.index && match.group(1) == 'All tests passed!') {
// then the test finishes
step = TestStep.testPassed;
} else {
badLines += 1;
}
}
}
}
await for (final String entry in analysis.stderr.transform<String>(utf8.decoder).transform<String>(const LineSplitter())) {
print('test stderr: $entry');
badLines += 1;
}
final int result = await analysis.exitCode;
clock.stop();
if (result != 0)
throw Exception('flutter test failed with exit code $result');
if (badLines > 0)
throw Exception('flutter test rendered unexpected output ($badLines bad lines)');
if (step != TestStep.testPassed)
throw Exception('flutter test did not finish (only reached step $step)');
print('elapsed time: ${clock.elapsedMilliseconds}ms');
return clock.elapsedMilliseconds;
}
void main() {
task(() async {
final File nodeSourceFile = File(path.join(
flutterDirectory.path, 'packages', 'flutter', 'lib', 'src', 'foundation', 'node.dart',
));
final String originalSource = await nodeSourceFile.readAsString();
try {
await runTest(); // first number is meaningless; could have had to build the tool, run pub get, have a cache, etc
final int withoutChange = await runTest(); // run test again with no change
await nodeSourceFile.writeAsString( // only change implementation
originalSource
.replaceAll('_owner', '_xyzzy')
);
final int implementationChange = await runTest(); // run test again with implementation changed
await nodeSourceFile.writeAsString( // change interface as well
originalSource
.replaceAll('_owner', '_xyzzy')
.replaceAll('owner', '_owner')
.replaceAll('_xyzzy', 'owner')
);
final int interfaceChange = await runTest(); // run test again with interface changed
// run test with coverage enabled.
final int withCoverage = await runTest(coverage: true);
final Map<String, dynamic> data = <String, dynamic>{
'without_change_elapsed_time_ms': withoutChange,
'implementation_change_elapsed_time_ms': implementationChange,
'interface_change_elapsed_time_ms': interfaceChange,
'with_coverage_time_ms': withCoverage,
};
return TaskResult.success(data, benchmarkScoreKeys: data.keys.toList());
} finally {
await nodeSourceFile.writeAsString(originalSource);
}
});
}