public void onPipelineExecutionChange(@Observes final PipelineExecutionChangeEvent event) { if (event.isStop() && isFromCurrentPipeline(event.getPipelineExecutionTraceKey())) { refresh(event.getPipelineExecutionTraceKey()); } }
public void onPipelineExecutionChange(@Observes final PipelineExecutionChangeEvent event) { if (event.isStop() && isFromCurrentPipeline(event.getPipelineExecutionTraceKey())) { refresh(event.getPipelineExecutionTraceKey()); } }
public void onRuntimeChangeEvent(@Observes final RuntimeChangeEvent event) { if ((event.isStart() || event.isStop()) && isFromCurrentRuntime(event.getRuntimeKey())) { refresh(event.getRuntimeKey()); } }
public void onRuntimeChangeEvent(@Observes final RuntimeChangeEvent event) { if ((event.isStart() || event.isStop()) && isFromCurrentRuntime(event.getRuntimeKey())) { refresh(event.getRuntimeKey()); } }
@Test public void testOnOtherRuntimeStopped() { prepareRuntime(); RuntimeKey otherKey = mock(RuntimeKey.class); presenter.onRuntimeChangeEvent(new RuntimeChangeEvent(RuntimeChange.STOPPED, otherKey)); verify(presenter, never()).refresh(any(RuntimeKey.class)); }
@Test public void testOnOtherRuntimeStarted() { prepareRuntime(); RuntimeKey otherKey = mock(RuntimeKey.class); presenter.onRuntimeChangeEvent(new RuntimeChangeEvent(RuntimeChange.STARTED, otherKey)); verify(presenter, never()).refresh(any(RuntimeKey.class)); }
@Test public void testOnOtherRuntimeStarted() { prepareRuntime(); RuntimeKey otherKey = mock(RuntimeKey.class); presenter.onRuntimeChangeEvent(new RuntimeChangeEvent(RuntimeChange.STARTED, otherKey)); verify(presenter, never()).refresh(any(RuntimeKey.class)); }
@Test public void testOnOtherRuntimeStopped() { prepareRuntime(); RuntimeKey otherKey = mock(RuntimeKey.class); presenter.onRuntimeChangeEvent(new RuntimeChangeEvent(RuntimeChange.STOPPED, otherKey)); verify(presenter, never()).refresh(any(RuntimeKey.class)); }
@Test public void testOnOtherPipelineExecutionStopped() { preparePipelineExecutionTraceSetup(); PipelineExecutionTraceKey otherKey = mock(PipelineExecutionTraceKey.class); RuntimeListItem item = new RuntimeListItem(RUNTIME_NAME, trace); presenter.setup(item); presenter.onPipelineExecutionChange(new PipelineExecutionChangeEvent(PipelineExecutionChange.STOPPED, otherKey)); verify(presenter, never()).refresh(any(PipelineExecutionTraceKey.class)); }
@Test public void testOnOtherPipelineExecutionStopped() { preparePipelineExecutionTraceSetup(); PipelineExecutionTraceKey otherKey = mock(PipelineExecutionTraceKey.class); RuntimeListItem item = new RuntimeListItem(RUNTIME_NAME, trace); presenter.setup(item); presenter.onPipelineExecutionChange(new PipelineExecutionChangeEvent(PipelineExecutionChange.STOPPED, otherKey)); verify(presenter, never()).refresh(any(PipelineExecutionTraceKey.class)); }
@Test public void testOnCurrentRuntimeStopped() { prepareRuntime(); RuntimeKey currentKey = runtime.getKey(); presenter.onRuntimeChangeEvent(new RuntimeChangeEvent(RuntimeChange.STOPPED, currentKey)); verify(presenter, times(1)).refresh(currentKey); }
@Test public void testOnCurrentRuntimeStarted() { prepareRuntime(); RuntimeKey currentKey = runtime.getKey(); presenter.onRuntimeChangeEvent(new RuntimeChangeEvent(RuntimeChange.STARTED, currentKey)); verify(presenter, times(1)).refresh(currentKey); }
@Test public void testOnCurrentRuntimeStarted() { prepareRuntime(); RuntimeKey currentKey = runtime.getKey(); presenter.onRuntimeChangeEvent(new RuntimeChangeEvent(RuntimeChange.STARTED, currentKey)); verify(presenter, times(1)).refresh(currentKey); }
@Test public void testOnCurrentRuntimeStopped() { prepareRuntime(); RuntimeKey currentKey = runtime.getKey(); presenter.onRuntimeChangeEvent(new RuntimeChangeEvent(RuntimeChange.STOPPED, currentKey)); verify(presenter, times(1)).refresh(currentKey); }
public void onPipelineStatusChange(@Observes final PipelineStatusChangeEvent event) { if (isFromCurrentPipeline(event.getPipelineExecutionTraceKey())) { processPipelineStatus(event.getStatus()); if (PipelineStatus.FINISHED.equals(event.getStatus()) && !PipelineStatus.FINISHED.equals(item.getPipelineTrace().getPipelineStatus())) { refresh(event.getPipelineExecutionTraceKey()); } } }
public void onPipelineStatusChange(@Observes final PipelineStatusChangeEvent event) { if (isFromCurrentPipeline(event.getPipelineExecutionTraceKey())) { processPipelineStatus(event.getStatus()); if ((PipelineStatus.FINISHED.equals(event.getStatus()) && !PipelineStatus.FINISHED.equals(item.getPipelineTrace().getPipelineStatus())) || PipelineStatus.ERROR.equals(event.getStatus())) { refresh(event.getPipelineExecutionTraceKey()); } } }
@Test public void testOnCurrentPipelineExecutionStopped() { preparePipelineExecutionTraceSetup(); PipelineExecutionTraceKey currentKey = trace.getKey(); RuntimeListItem item = new RuntimeListItem(RUNTIME_NAME, trace); presenter.setup(item); presenter.onPipelineExecutionChange(new PipelineExecutionChangeEvent(PipelineExecutionChange.STOPPED, currentKey)); verify(presenter, times(1)).refresh(currentKey); }
@Test public void testOnCurrentPipelineExecutionStopped() { preparePipelineExecutionTraceSetup(); PipelineExecutionTraceKey currentKey = trace.getKey(); RuntimeListItem item = new RuntimeListItem(RUNTIME_NAME, trace); presenter.setup(item); presenter.onPipelineExecutionChange(new PipelineExecutionChangeEvent(PipelineExecutionChange.STOPPED, currentKey)); verify(presenter, times(1)).refresh(currentKey); }