@Test public void testPreservesOptions() { Fixture.fakePhase(PhaseId.READ_DATA); when(adapter.getFlavor()).thenReturn(NeedsPositionFlavor.CONTINUOUS); GeolocationOptions options = new GeolocationOptions().setFrequency(10).enableHighAccuracy().setMaximumAge(10); when(adapter.getOptions()).thenReturn(options); synchronizer.preserveValues(object); assertNotNull( RWT.getServiceStore() .getAttribute( synchronizer.getObjectId() + "." + GeolocationSynchronizer.PROP_ENABLE_HIGH_ACCURACY)); assertNotNull( RWT.getServiceStore() .getAttribute( synchronizer.getObjectId() + "." + GeolocationSynchronizer.PROP_FREQUENCY)); assertNotNull( RWT.getServiceStore() .getAttribute( synchronizer.getObjectId() + "." + GeolocationSynchronizer.PROP_MAXIMUM_AGE)); }
@Test public void testOptions() { GeolocationOptions mock = mock(GeolocationOptions.class); adapter.setOptions(mock); assertEquals(mock, adapter.getOptions()); }
@Test public void testError() { PositionError mock = mock(PositionError.class); adapter.setError(mock); assertEquals(mock, adapter.getError()); }
@Test public void testCallback() { GeolocationCallback mock = mock(GeolocationCallback.class); adapter.setCallback(mock); assertEquals(mock, adapter.getCallback()); }
@Test public void testPosition() { Position position = mock(Position.class); adapter.setPosition(position); assertEquals(position, adapter.getPosition()); }
@Test public void testProcessActionWithContinous() { when(adapter.getFlavor()).thenReturn(NeedsPositionFlavor.CONTINUOUS); Position position = mock(Position.class); when(adapter.getPosition()).thenReturn(position); GeolocationCallback callback = mock(GeolocationCallback.class); when(adapter.getCallback()).thenReturn(callback); synchronizer.processAction(object); verify(callback).onSuccess(position); verify(adapter).setPosition(null); verify(adapter, never()).setCallback(null); verify(adapter, never()).setOptions(null); verify(adapter, never()).setFlavor(NeedsPositionFlavor.NEVER); }
@Test public void testPreservesValues() { Fixture.fakePhase(PhaseId.READ_DATA); when(adapter.getFlavor()).thenReturn(NeedsPositionFlavor.CONTINUOUS); synchronizer.preserveValues(object); assertNotNull( RWT.getServiceStore() .getAttribute( synchronizer.getObjectId() + "." + GeolocationSynchronizer.PROP_NEEDS_POSITION)); }
@Test public void testRenderChanges() { Fixture.fakePhase(PhaseId.READ_DATA); when(adapter.getFlavor()).thenReturn(NeedsPositionFlavor.CONTINUOUS); GeolocationOptions options = new GeolocationOptions().setFrequency(10).enableHighAccuracy().setMaximumAge(10); when(adapter.getOptions()).thenReturn(options); synchronizer.renderChanges(object); verify(synchronizer) .renderProperty( eq(GeolocationSynchronizer.PROP_NEEDS_POSITION), any(NeedsPositionFlavor.class), any(NeedsPositionFlavor.class)); verify(synchronizer) .renderProperty( eq(GeolocationSynchronizer.PROP_MAXIMUM_AGE), any(Integer.class), any(Integer.class)); verify(synchronizer) .renderProperty( eq(GeolocationSynchronizer.PROP_FREQUENCY), any(Integer.class), any(Integer.class)); }
@Test public void testFlavor() { adapter.setFlavor(NeedsPositionFlavor.CONTINUOUS); assertEquals(NeedsPositionFlavor.CONTINUOUS, adapter.getFlavor()); }