本文整理匯總了Java中edu.stanford.nlp.trees.Tree.numChildren方法的典型用法代碼示例。如果您正苦於以下問題:Java Tree.numChildren方法的具體用法?Java Tree.numChildren怎麽用?Java Tree.numChildren使用的例子?那麽, 這裏精選的方法代碼示例或許可以為您提供幫助。您也可以進一步了解該方法所在類edu.stanford.nlp.trees.Tree的用法示例。
在下文中一共展示了Tree.numChildren方法的5個代碼示例,這些例子默認根據受歡迎程度排序。您可以為喜歡或者感覺有用的代碼點讚,您的評價將有助於係統推薦出更棒的Java代碼示例。
示例1: removeEmptyNodes
import edu.stanford.nlp.trees.Tree; //導入方法依賴的package包/類
public static Tree removeEmptyNodes(Tree tree)
{
Tree[] children = tree.children();
for (int i = 0; i < children.length; i++)
{
Tree child = children[i];
// heuristic: all leaf nodes have a special anchor symbol '<>' in the end.
// If we don't find this, then we should remove the node.
if (child.numChildren() == 0 && !child.label().value().contains("<>"))
{
// System.out.println("node " + child);
tree.removeChild(i);
} else
{
removeEmptyNodes(child);
}
}
return tree;
}
示例2: getMinimalConnectedStructure
import edu.stanford.nlp.trees.Tree; //導入方法依賴的package包/類
public static Tree getMinimalConnectedStructure(Tree tree, Tree firstLeaf, Tree lastLeaf, int lastLeafIndex)
{
// find common ancestor node by traversing the tree bottom-up from the last leaf and up
Tree commonAncestorNode = lastLeaf.parent(tree);
while(!commonAncestorNode.getLeaves().get(0).equals(firstLeaf))
{
commonAncestorNode = commonAncestorNode.parent(tree);
}
// found the common ancestor, now we need to clone the tree and chop the children non-terminals the span of which is outwith the last leaf
Tree result = commonAncestorNode.deepCopy();
List<Tree> leaves = result.getLeaves();
lastLeaf = leaves.get(lastLeafIndex);
Tree p = lastLeaf.parent(result);
Tree d = lastLeaf;
while(p != null)
{
if(p.numChildren() > 1)
{
// remove siblings to the right of d
int index = indexOfChild(p, d.nodeNumber(result), result);
pruneChildrenAfter(p, index);
}
d = p;
p = p.parent(result);
}
return result;
}
示例3: pruneChildrenAfter
import edu.stanford.nlp.trees.Tree; //導入方法依賴的package包/類
public static void pruneChildrenAfter(Tree parent, int index)
{
int numOfChildren = parent.numChildren();
for(int i = index + 1; i < numOfChildren; i++)
{
parent.removeChild(index + 1);
}
}
示例4: removeSubtreesAfterWord
import edu.stanford.nlp.trees.Tree; //導入方法依賴的package包/類
public static String removeSubtreesAfterWord(String inputTree, int numOfLeaves)
{
Tree tree = Tree.valueOf(inputTree);
List<Tree> leaves = tree.getLeaves();
if(leaves.size() > numOfLeaves)
{
// find common ancestor between last valid leaf and extraneous leaf
Tree firstLeaf = leaves.get(numOfLeaves - 1);
Tree lastLeaf = leaves.get(leaves.size() - 1);
Tree commonAncestorNode = lastLeaf.parent(tree);
while(!commonAncestorNode.getLeaves().contains(firstLeaf))
{
commonAncestorNode = commonAncestorNode.parent(tree);
}
// found the common ancestor, now we need to chop the children nodes the span of which is outwith the last valid leaf
Tree p = lastLeaf.parent(tree);
while(p != commonAncestorNode)
{
int numOfChildren = p.numChildren();
for(int i = 0; i < numOfChildren; i++)
p.removeChild(0);
p = p.parent(tree);
}
// remove last leftover parent node of the invalid leaf
commonAncestorNode.removeChild(commonAncestorNode.numChildren() - 1);
return tree.toString();
}
else
{
return inputTree;
}
}
示例5: constructConstituent
import edu.stanford.nlp.trees.Tree; //導入方法依賴的package包/類
/**
*
* @param root
* @param left
* @param right
* @param n
* is the length of the sentence is tokens.
* @param p
* @param tokenizationUUID
* @return The constituent ID
* @throws AnalyticException
*/
private static int constructConstituent(Tree root, int left,
int right, int n, Parse p, UUID tokenizationUUID, HeadFinder hf)
throws AnalyticException {
Constituent constituent = new Constituent();
constituent.setId(p.getConstituentListSize());
constituent.setTag(root.value());
constituent.setStart(left);
constituent.setEnding(right);
p.addToConstituentList(constituent);
Tree headTree = null;
if (!root.isLeaf()) {
try {
headTree = hf.determineHead(root);
} catch (java.lang.IllegalArgumentException iae) {
LOGGER.warn("Failed to find head, falling back on rightmost constituent.", iae);
headTree = root.children()[root.numChildren() - 1];
}
}
int i = 0, headTreeIdx = -1;
int leftPtr = left;
for (Tree child : root.getChildrenAsList()) {
int width = child.getLeaves().size();
int childId = constructConstituent(child, leftPtr, leftPtr
+ width, n, p, tokenizationUUID, hf);
constituent.addToChildList(childId);
leftPtr += width;
if (headTree != null && child == headTree) {
assert (headTreeIdx < 0);
headTreeIdx = i;
}
i++;
}
if (headTreeIdx >= 0)
constituent.setHeadChildIndex(headTreeIdx);
if (!constituent.isSetChildList())
constituent.setChildList(new ArrayList<Integer>());
return constituent.getId();
}