protected void flattenMapping(MappingNode node) { // perform merging only on nodes containing merge node(s) processDuplicateKeys(node); if (node.isMerged()) { node.setValue(mergeNode(node, true, new HashMap<Object, Integer>(), new ArrayList<NodeTuple>())); } }
private void replaceMappingNodeKeys(MappingNode node) { node.setValue(node.getValue().stream().map(KeyScalarNode::get) .collect(Collectors.toList())); }
protected void flattenMapping(MappingNode node) { // perform merging only on nodes containing merge node(s) if (node.isMerged()) { node.setValue(mergeNode(node, true, new HashMap<Object, Integer>(), new ArrayList<NodeTuple>())); } }
protected void flattenMapping(MappingNode node) { // perform merging only on nodes containing merge node(s) if (node.isMerged()) { node.setValue(mergeNode(node, true, new HashMap<Object, Integer>(), new ArrayList<NodeTuple>())); } }
protected void flattenMapping(MappingNode node) { // perform merging only on nodes containing merge node(s) processDuplicateKeys(node); if (node.isMerged()) { node.setValue(mergeNode(node, true, new HashMap<Object, Integer>(), new ArrayList<NodeTuple>())); } }
mappingNode.setValue(updatedTuples);
map.setValue(entriesWithoutType); Message prototype = supportedConfigTypes.get(typeName); if (prototype == null) {
mappingNode.setValue(updatedTuples);
map.setValue(entriesWithoutType); Message prototype = supportedConfigTypes.get(typeName); if (prototype == null) {