public int compare(Method o1, Method o2) { return sorter.compare(methodDescription(o1), methodDescription(o2)); } });
public int compare(Method o1, Method o2) { return sorter.compare(methodDescription(o1), methodDescription(o2)); } });
public void filter(Filter filter) throws NoTestsRemainException { for (Iterator<Method> iter = testMethods.iterator(); iter.hasNext(); ) { Method method = iter.next(); if (!filter.shouldRun(methodDescription(method))) { iter.remove(); } } if (testMethods.isEmpty()) { throw new NoTestsRemainException(); } }
public void filter(Filter filter) throws NoTestsRemainException { for (Iterator<Method> iter = fTestMethods.iterator(); iter.hasNext(); ) { Method method = iter.next(); if (!filter.shouldRun(methodDescription(method))) { iter.remove(); } } if (fTestMethods.isEmpty()) { throw new NoTestsRemainException(); } }
@Override public Description getDescription() { Description spec = Description.createSuiteDescription(getName(), classAnnotations()); List<Method> testMethods = this.testMethods; for (Method method : testMethods) { spec.addChild(methodDescription(method)); } return spec; }
@Override public Description getDescription() { Description spec = Description.createSuiteDescription(getName(), classAnnotations()); List<Method> testMethods = fTestMethods; for (Method method : testMethods) { spec.addChild(methodDescription(method)); } return spec; }
protected void invokeTestMethod(Method method, RunNotifier notifier) { Description description = methodDescription(method); Object test; try { test = createTest(); } catch (InvocationTargetException e) { testAborted(notifier, description, e.getCause()); return; } catch (Exception e) { testAborted(notifier, description, e); return; } TestMethod testMethod = wrapMethod(method); new MethodRoadie(test, testMethod, notifier, description).run(); }
protected void invokeTestMethod(Method method, RunNotifier notifier) { Description description = methodDescription(method); Object test; try { test = createTest(); } catch (InvocationTargetException e) { testAborted(notifier, description, e.getCause()); return; } catch (Exception e) { testAborted(notifier, description, e); return; } TestMethod testMethod = wrapMethod(method); new MethodRoadie(test, testMethod, notifier, description).run(); }
public int compare(Method o1, Method o2) { return sorter.compare(methodDescription(o1), methodDescription(o2)); } });
public void filter(Filter filter) throws NoTestsRemainException { for (Iterator<Method> iter = fTestMethods.iterator(); iter.hasNext(); ) { Method method = iter.next(); if (!filter.shouldRun(methodDescription(method))) { iter.remove(); } } if (fTestMethods.isEmpty()) { throw new NoTestsRemainException(); } }
@Override public Description getDescription() { Description spec = Description.createSuiteDescription(getName(), classAnnotations()); List<Method> testMethods = fTestMethods; for (Method method : testMethods) { spec.addChild(methodDescription(method)); } return spec; }
protected void invokeTestMethod(Method method, RunNotifier notifier) { Description description = methodDescription(method); Object test; try { test = createTest(); } catch (InvocationTargetException e) { testAborted(notifier, description, e.getCause()); return; } catch (Exception e) { testAborted(notifier, description, e); return; } TestMethod testMethod = wrapMethod(method); new MethodRoadie(test, testMethod, notifier, description).run(); }
public void filter(Filter filter) throws NoTestsRemainException { for (Iterator<Method> iter = fTestMethods.iterator(); iter.hasNext(); ) { Method method = iter.next(); if (!filter.shouldRun(methodDescription(method))) { iter.remove(); } } if (fTestMethods.isEmpty()) { throw new NoTestsRemainException(); } }
public void filter(Filter filter) throws NoTestsRemainException { for (Iterator<Method> iter = testMethods.iterator(); iter.hasNext(); ) { Method method = iter.next(); if (!filter.shouldRun(methodDescription(method))) { iter.remove(); } } if (testMethods.isEmpty()) { throw new NoTestsRemainException(); } }
public void filter(Filter filter) throws NoTestsRemainException { for (Iterator<Method> iter = testMethods.iterator(); iter.hasNext(); ) { Method method = iter.next(); if (!filter.shouldRun(methodDescription(method))) { iter.remove(); } } if (testMethods.isEmpty()) { throw new NoTestsRemainException(); } }
public void filter(Filter filter) throws NoTestsRemainException { for (Iterator<Method> iter = fTestMethods.iterator(); iter.hasNext(); ) { Method method = iter.next(); if (!filter.shouldRun(methodDescription(method))) { iter.remove(); } } if (fTestMethods.isEmpty()) { throw new NoTestsRemainException(); } }
@Override public Description getDescription() { Description spec = Description.createSuiteDescription(getName(), classAnnotations()); List<Method> testMethods = this.testMethods; for (Method method : testMethods) { spec.addChild(methodDescription(method)); } return spec; }
@Override public Description getDescription() { Description spec = Description.createSuiteDescription(getName(), classAnnotations()); List<Method> testMethods = fTestMethods; for (Method method : testMethods) { spec.addChild(methodDescription(method)); } return spec; }
@Override public Description getDescription() { Description spec = Description.createSuiteDescription(getName(), classAnnotations()); List<Method> testMethods = this.testMethods; for (Method method : testMethods) { spec.addChild(methodDescription(method)); } return spec; }
@Override public Description getDescription() { Description spec = Description.createSuiteDescription(getName(), classAnnotations()); List<Method> testMethods = fTestMethods; for (Method method : testMethods) { spec.addChild(methodDescription(method)); } return spec; }