public static GraphContainer.Callback applyDefaultCriteria() { return (graphContainer, graphProvider) -> { List<Criteria> defaultCriteriaList = graphProvider.getDefaults().getCriteria(); if (defaultCriteriaList != null) { defaultCriteriaList.forEach(graphContainer::addCriteria); } }; }
public static GraphContainer.Callback applyDefaultCriteria() { return (graphContainer, graphProvider) -> { List<Criteria> defaultCriteriaList = graphProvider.getDefaults().getCriteria(); if (defaultCriteriaList != null) { defaultCriteriaList.forEach(graphContainer::addCriteria); } }; }
@Override public void buttonClick(Button.ClickEvent event) { List<Criteria> defaultCriteriaList = graphContainer.getTopologyServiceClient().getDefaults().getCriteria(); if (defaultCriteriaList != null && !defaultCriteriaList.isEmpty()) { defaultCriteriaList.forEach(graphContainer::addCriteria); graphContainer.redoLayout(); noDefaultsAvailable.setVisible(false); } else { noDefaultsAvailable.setVisible(true); } } });
@Override public void buttonClick(Button.ClickEvent event) { List<Criteria> defaultCriteriaList = graphContainer.getTopologyServiceClient().getDefaults().getCriteria(); if (defaultCriteriaList != null && !defaultCriteriaList.isEmpty()) { defaultCriteriaList.forEach(graphContainer::addCriteria); graphContainer.redoLayout(); noDefaultsAvailable.setVisible(false); } else { noDefaultsAvailable.setVisible(true); } } });
public void handleClick(Breadcrumb breadcrumb, GraphContainer graphContainer) { final GraphProvider targetGraphProvider = graphContainer.getTopologyServiceClient().getGraphProviderBy(breadcrumb.getTargetNamespace()); if (isLeaf(breadcrumb)) { if (breadcrumb.getSourceVertices().isEmpty()) { final List<VertexRef> defaultFocus = targetGraphProvider.getDefaults().getCriteria() .stream() .filter(c -> c instanceof VertexHopGraphProvider.VertexHopCriteria) .map(c -> ((VertexHopGraphProvider.VertexHopCriteria) c).getVertices()) .flatMap(Set::stream) .collect(Collectors.toList()); handleClick(graphContainer, targetGraphProvider, defaultFocus, breadcrumb); } else { List<VertexRef> oppositeVertices = breadcrumb.getSourceVertices().stream().flatMap(sourceVertex -> getOppositeVertices(graphContainer, breadcrumb.getTargetNamespace(), sourceVertex).stream()).collect(Collectors.toList()); handleClick(graphContainer, targetGraphProvider, oppositeVertices, breadcrumb); } } else { Breadcrumb next = getNext(breadcrumb); handleClick(graphContainer, targetGraphProvider, next.getSourceVertices(), breadcrumb); } }
public void handleClick(Breadcrumb breadcrumb, GraphContainer graphContainer) { final GraphProvider targetGraphProvider = graphContainer.getTopologyServiceClient().getGraphProviderBy(breadcrumb.getTargetNamespace()); if (isLeaf(breadcrumb)) { if (breadcrumb.getSourceVertices().isEmpty()) { final List<VertexRef> defaultFocus = targetGraphProvider.getDefaults().getCriteria() .stream() .filter(c -> c instanceof VertexHopGraphProvider.VertexHopCriteria) .map(c -> ((VertexHopGraphProvider.VertexHopCriteria) c).getVertices()) .flatMap(Set::stream) .collect(Collectors.toList()); handleClick(graphContainer, targetGraphProvider, defaultFocus, breadcrumb); } else { List<VertexRef> oppositeVertices = breadcrumb.getSourceVertices().stream().flatMap(sourceVertex -> getOppositeVertices(graphContainer, breadcrumb.getTargetNamespace(), sourceVertex).stream()).collect(Collectors.toList()); handleClick(graphContainer, targetGraphProvider, oppositeVertices, breadcrumb); } } else { Breadcrumb next = getNext(breadcrumb); handleClick(graphContainer, targetGraphProvider, next.getSourceVertices(), breadcrumb); } }
List<Criteria> defaultCriteriaList = m_graphContainer.getTopologyServiceClient().getDefaults().getCriteria(); if (defaultCriteriaList != null) {
List<Criteria> defaultCriteriaList = m_graphContainer.getTopologyServiceClient().getDefaults().getCriteria(); if (defaultCriteriaList != null) {