public AbstractSensorWrapper(G sensor, SensorContext context, AbstractSensorOptimizer optimizer) { this.wrappedSensor = sensor; this.optimizer = optimizer; this.context = context; this.descriptor = new DefaultSensorDescriptor(); sensor.describe(this.descriptor); if (descriptor.name() == null) { descriptor.name(sensor.getClass().getName()); } }
@Test public void should_run_analyzer_with_no_metadata() { DefaultSensorDescriptor descriptor = new DefaultSensorDescriptor(); assertThat(optimizer.shouldExecute(descriptor)).isTrue(); }
@Test public void testDescriptor() { sensor.describe(new DefaultSensorDescriptor()); }
@Test public void testDescriptor() { sensor.describe(new DefaultSensorDescriptor()); }
@Test public void testDescriptor() { sensor.describe(new DefaultSensorDescriptor()); }
@Test public void testDescriptor() { sensor.describe(new DefaultSensorDescriptor()); }
@Test public void testDescriptor() { sensor.describe(new DefaultSensorDescriptor()); }
@Test public void testDescriptor() { sensor.describe(new DefaultSensorDescriptor()); }
@Test public void testDescriptor() { sensor.describe(new DefaultSensorDescriptor()); }
@Test public void testDescriptor() { sensor.describe(new DefaultSensorDescriptor()); }
@Test public void should_optimize_on_settings() { DefaultSensorDescriptor descriptor = new DefaultSensorDescriptor() .requireProperty("sonar.foo.reportPath"); assertThat(optimizer.shouldExecute(descriptor)).isFalse(); settings.setProperty("sonar.foo.reportPath", "foo"); assertThat(optimizer.shouldExecute(descriptor)).isTrue(); }
@Test public void testDescriptor() { DefaultSensorDescriptor descriptor = new DefaultSensorDescriptor(); sensor.describe(descriptor); assertThat(descriptor.ruleRepositories()).containsOnly(XooRulesDefinition.XOO_REPOSITORY, XooRulesDefinition.XOO2_REPOSITORY); }
@Test public void should_optimize_on_language() { DefaultSensorDescriptor descriptor = new DefaultSensorDescriptor() .onlyOnLanguages("java", "php"); assertThat(optimizer.shouldExecute(descriptor)).isFalse(); fs.add(new TestInputFileBuilder("foo", "src/Foo.java").setLanguage("java").build()); assertThat(optimizer.shouldExecute(descriptor)).isTrue(); }
@Test public void should_optimize_on_type() { DefaultSensorDescriptor descriptor = new DefaultSensorDescriptor() .onlyOnFileType(InputFile.Type.MAIN); assertThat(optimizer.shouldExecute(descriptor)).isFalse(); fs.add(new TestInputFileBuilder("foo", "tests/FooTest.java").setType(InputFile.Type.TEST).build()); assertThat(optimizer.shouldExecute(descriptor)).isFalse(); fs.add(new TestInputFileBuilder("foo", "src/Foo.java").setType(InputFile.Type.MAIN).build()); assertThat(optimizer.shouldExecute(descriptor)).isTrue(); }
@Test public void describe() { DefaultSensorDescriptor descriptor = new DefaultSensorDescriptor(); descriptor .name("Foo") .onlyOnLanguage("java") .onlyOnFileType(InputFile.Type.MAIN) .requireProperty("sonar.foo.reportPath", "sonar.foo.reportPath2") .createIssuesForRuleRepository("squid-java"); assertThat(descriptor.name()).isEqualTo("Foo"); assertThat(descriptor.languages()).containsOnly("java"); assertThat(descriptor.type()).isEqualTo(InputFile.Type.MAIN); MapSettings settings = new MapSettings(); settings.setProperty("sonar.foo.reportPath", "foo"); assertThat(descriptor.configurationPredicate().test(settings.asConfig())).isFalse(); settings.setProperty("sonar.foo.reportPath2", "foo"); assertThat(descriptor.configurationPredicate().test(settings.asConfig())).isTrue(); assertThat(descriptor.ruleRepositories()).containsOnly("squid-java"); }
@Test public void should_optimize_on_both_type_and_language() { DefaultSensorDescriptor descriptor = new DefaultSensorDescriptor() .onlyOnLanguages("java", "php") .onlyOnFileType(InputFile.Type.MAIN); assertThat(optimizer.shouldExecute(descriptor)).isFalse(); fs.add(new TestInputFileBuilder("foo", "tests/FooTest.java").setLanguage("java").setType(InputFile.Type.TEST).build()); fs.add(new TestInputFileBuilder("foo", "src/Foo.cbl").setLanguage("cobol").setType(InputFile.Type.MAIN).build()); assertThat(optimizer.shouldExecute(descriptor)).isFalse(); fs.add(new TestInputFileBuilder("foo", "src/Foo.java").setLanguage("java").setType(InputFile.Type.MAIN).build()); assertThat(optimizer.shouldExecute(descriptor)).isTrue(); }
@Test public void should_optimize_on_repository() { DefaultSensorDescriptor descriptor = new DefaultSensorDescriptor() .createIssuesForRuleRepositories("squid"); assertThat(optimizer.shouldExecute(descriptor)).isFalse(); ActiveRules activeRules = new ActiveRulesBuilder() .addRule(new NewActiveRule.Builder().setRuleKey(RuleKey.of("repo1", "foo")).build()) .build(); optimizer = new ModuleSensorOptimizer(fs, activeRules, settings.asConfig()); assertThat(optimizer.shouldExecute(descriptor)).isFalse(); activeRules = new ActiveRulesBuilder() .addRule(new NewActiveRule.Builder().setRuleKey(RuleKey.of("repo1", "foo")).build()) .addRule(new NewActiveRule.Builder().setRuleKey(RuleKey.of("squid", "rule")).build()) .build(); optimizer = new ModuleSensorOptimizer(fs, activeRules, settings.asConfig()); assertThat(optimizer.shouldExecute(descriptor)).isTrue(); }
public SensorWrapper(Sensor newSensor, SensorContext context, SensorOptimizer optimizer) { this.wrappedSensor = newSensor; this.optimizer = optimizer; this.context = context; this.descriptor = new DefaultSensorDescriptor(); newSensor.describe(this.descriptor); }
public void execute() { for (Sensor sensor : sort(asList(sensors))) { progress.checkCancel(); DefaultSensorDescriptor descriptor = new DefaultSensorDescriptor(); sensor.describe(descriptor); if (sensorOptimizer.shouldExecute(descriptor)) { executeSensor(context, sensor, descriptor); } } }
@Test public void test_descriptor() { DefaultSensorDescriptor sensorDescriptor = new DefaultSensorDescriptor(); new GoMetaLinterReportSensor().describe(sensorDescriptor); assertThat(sensorDescriptor.name()).isEqualTo("Import of GoMetaLinter issues"); assertThat(sensorDescriptor.languages()).containsOnly("go"); }