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An OSGi bundle for Saxon-HE
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// Copyright (c) 2013 Saxonica Limited.
// This Source Code Form is subject to the terms of the Mozilla Public License, v. 2.0.
// If a copy of the MPL was not distributed with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
// This Source Code Form is "Incompatible With Secondary Licenses", as defined by the Mozilla Public License, v. 2.0.
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
package net.sf.saxon.tree.wrapper;
import net.sf.saxon.Configuration;
import net.sf.saxon.om.*;
import net.sf.saxon.pattern.NodeTest;
import net.sf.saxon.trans.XPathException;
import net.sf.saxon.tree.iter.AxisIterator;
import net.sf.saxon.tree.iter.SingletonIterator;
import net.sf.saxon.tree.util.FastStringBuffer;
import net.sf.saxon.tree.util.Navigator;
import net.sf.saxon.type.SchemaType;
/**
* AbstractVirtualNode is an abstract superclass for VirtualNode implementations in which
* the underlying node is itself a Saxon NodeInfo.
*/
public abstract class AbstractVirtualNode implements VirtualNode {
protected NodeInfo node;
/*@Nullable*/ protected AbstractVirtualNode parent; // null means unknown
protected AbstractVirtualNode docWrapper;
/**
* To implement {@link Sequence}, this method returns the item itself
* @return this item
*/
public Item head() {
return this;
}
/**
* To implement {@link Sequence}, this method returns a singleton iterator
* that delivers this item in the form of a sequence
* @return a singleton iterator that returns this item
*/
public SequenceIterator iterate() {
return SingletonIterator.makeIterator((NodeInfo)this);
}
/**
* Get the underlying node, to implement the VirtualNode interface
*/
public NodeInfo getUnderlyingNode() {
return node;
}
/**
* Get the node underlying this virtual node. If this is a VirtualNode the method
* will automatically drill down through several layers of wrapping.
* @return The underlying node.
*/
public Object getRealNode() {
Object u = this;
do {
u = ((VirtualNode)u).getUnderlyingNode();
} while (u instanceof VirtualNode);
return u;
}
/**
* Get the configuration
*/
public Configuration getConfiguration() {
return node.getConfiguration();
}
/**
* Get the name pool for this node
* @return the NamePool
*/
public NamePool getNamePool() {
return node.getNamePool();
}
/**
* Return the type of node.
* @return one of the values Node.ELEMENT, Node.TEXT, Node.ATTRIBUTE, etc.
*/
public int getNodeKind() {
return node.getNodeKind();
}
/**
* Get the typed value.
*
* @return the typed value. If requireSingleton is set to true, the result will always be an
* AtomicValue. In other cases it may be a Value representing a sequence whose items are atomic
* values.
* @since 8.5
*/
public AtomicSequence atomize() throws XPathException {
// The default implementation atomizes the base node
return node.atomize();
}
/**
* Get the type annotation
* @return the type annotation of the base node
*/
public int getTypeAnnotation() {
return node.getTypeAnnotation();
}
/**
* Get the type annotation
* @return the type annotation of the base node
*/
public SchemaType getSchemaType() {
return node.getSchemaType();
}
/**
* Determine whether this is the same node as another node.
* Note: a.isSameNode(b) if and only if generateId(a)==generateId(b)
* @return true if this Node object and the supplied Node object represent the
* same node in the tree.
*/
public boolean isSameNodeInfo(/*@NotNull*/ NodeInfo other) {
if (other instanceof AbstractVirtualNode) {
return node.isSameNodeInfo(((AbstractVirtualNode)other).node);
} else {
return node.isSameNodeInfo(other);
}
}
/**
* The equals() method compares nodes for identity. It is defined to give the same result
* as isSameNodeInfo().
* @param other the node to be compared with this node
* @return true if this NodeInfo object and the supplied NodeInfo object represent
* the same node in the tree.
* @since 8.7 Previously, the effect of the equals() method was not defined. Callers
* should therefore be aware that third party implementations of the NodeInfo interface may
* not implement the correct semantics. It is safer to use isSameNodeInfo() for this reason.
* The equals() method has been defined because it is useful in contexts such as a Java Set or HashMap.
*/
public boolean equals(Object other) {
return other instanceof NodeInfo && isSameNodeInfo((NodeInfo)other);
}
/**
* The hashCode() method obeys the contract for hashCode(): that is, if two objects are equal
* (represent the same node) then they must have the same hashCode()
* @since 8.7 Previously, the effect of the equals() and hashCode() methods was not defined. Callers
* should therefore be aware that third party implementations of the NodeInfo interface may
* not implement the correct semantics.
*/
public int hashCode() {
return node.hashCode() ^ 0x3c3c3c3c;
}
/**
* Get the System ID for the node.
* @return the System Identifier of the entity in the source document containing the node,
* or null if not known. Note this is not the same as the base URI: the base URI can be
* modified by xml:base, but the system ID cannot.
*/
/*@Nullable*/ public String getSystemId() {
return node.getSystemId();
}
public void setSystemId(String uri) {
node.setSystemId(uri);
}
/**
* Get the Base URI for the node, that is, the URI used for resolving a relative URI contained
* in the node. In the JDOM model, base URIs are held only an the document level. We don't
* currently take any account of xml:base attributes.
*/
public String getBaseURI() {
return node.getBaseURI();
}
/**
* Get line number
* @return the line number of the node in its original source document; or -1 if not available
*/
public int getLineNumber() {
return node.getLineNumber();
}
/**
* Get column number
* @return the column number of the node in its original source document; or -1 if not available
*/
public int getColumnNumber() {
return node.getColumnNumber();
}
/**
* Determine the relative position of this node and another node, in document order.
* The other node will always be in the same document.
* @param other The other node, whose position is to be compared with this node
* @return -1 if this node precedes the other node, +1 if it follows the other
* node, or 0 if they are the same node. (In this case, isSameNode() will always
* return true, and the two nodes will produce the same result for generateId())
*/
public int compareOrder(/*@NotNull*/ NodeInfo other) {
if (other instanceof AbstractVirtualNode) {
return node.compareOrder(((AbstractVirtualNode)other).node);
} else {
return node.compareOrder(other);
}
}
/**
* Determine the relative position of this node and another node, in document order,
* distinguishing whether the first node is a preceding, following, descendant, ancestor,
* or the same node as the second.
*
* The other node must always be in the same tree; the effect of calling this method
* when the two nodes are in different trees is undefined. If either node is a namespace
* or attribute node, the method should throw UnsupportedOperationException.
*
* @param other The other node, whose position is to be compared with this
* node
* @return {@link net.sf.saxon.om.AxisInfo#PRECEDING} if this node is on the preceding axis of the other node;
* {@link net.sf.saxon.om.AxisInfo#FOLLOWING} if it is on the following axis; {@link net.sf.saxon.om.AxisInfo#ANCESTOR} if the first node is an
* ancestor of the second; {@link net.sf.saxon.om.AxisInfo#DESCENDANT} if the first is a descendant of the second;
* {@link net.sf.saxon.om.AxisInfo#SELF} if they are the same node.
* @throws UnsupportedOperationException if either node is an attribute or namespace
* @since 9.5
*/
public int comparePosition(NodeInfo other) {
if (other instanceof AbstractVirtualNode) {
return node.comparePosition(((AbstractVirtualNode)other).node);
} else {
return node.comparePosition(other);
}
}
/**
* Return the string value of the node. The interpretation of this depends on the type
* of node. For an element it is the accumulated character content of the element,
* including descendant elements.
* @return the string value of the node
*/
public final String getStringValue() {
return getStringValueCS().toString();
}
/**
* Get the value of the item as a CharSequence. This is in some cases more efficient than
* the version of the method that returns a String.
*/
public CharSequence getStringValueCS() {
// default implementation returns the string value of the base node
return node.getStringValueCS();
}
/**
* Get name code. The name code is a coded form of the node name: two nodes
* with the same name code have the same namespace URI, the same local name,
* and the same prefix. By masking the name code with &0xfffff, you get a
* fingerprint: two nodes with the same fingerprint have the same local name
* and namespace URI.
* @see net.sf.saxon.om.NamePool#allocate allocate
*/
public int getNameCode() {
return node.getNameCode();
}
/**
* Get fingerprint. The fingerprint is a coded form of the expanded name
* of the node: two nodes
* with the same name code have the same namespace URI and the same local name.
* A fingerprint of -1 should be returned for a node with no name.
*/
public int getFingerprint() {
return node.getFingerprint();
}
/**
* Get the local part of the name of this node. This is the name after the ":" if any.
* @return the local part of the name. For an unnamed node, returns null, except for
* un unnamed namespace node, which returns "".
*/
public String getLocalPart() {
return node.getLocalPart();
}
/**
* Get the URI part of the name of this node. This is the URI corresponding to the
* prefix, or the URI of the default namespace if appropriate.
* @return The URI of the namespace of this node. For an unnamed node, return null.
* For a node with an empty prefix, return an empty string.
*/
public String getURI() {
return node.getURI();
}
/**
* Get the prefix of the name of the node. This is defined only for elements and attributes.
* If the node has no prefix, or for other kinds of node, return a zero-length string.
*
* @return The prefix of the name of the node.
*/
public String getPrefix() {
return node.getPrefix();
}
/**
* Get the display name of this node. For elements and attributes this is [prefix:]localname.
* For unnamed nodes, it is an empty string.
* @return The display name of this node.
* For a node with no name, return an empty string.
*/
public String getDisplayName() {
return node.getDisplayName();
}
/**
* Return an iteration over the nodes reached by the given axis from this node
* @param axisNumber the axis to be used
* @param nodeTest A pattern to be matched by the returned nodes
* @return a SequenceIterator that scans the nodes reached by the axis in turn.
*/
/*@NotNull*/ public AxisIterator iterateAxis(byte axisNumber, NodeTest nodeTest) {
return new Navigator.AxisFilter(iterateAxis(axisNumber), nodeTest);
}
/**
* Get the string value of a given attribute of this node
*
* @param uri the namespace URI of the attribute name. Supply the empty string for an attribute
* that is in no namespace
* @param local the local part of the attribute name.
* @return the attribute value if it exists, or null if it does not exist. Always returns null
* if this node is not an element.
* @since 9.4
*/
public String getAttributeValue(/*@NotNull*/ String uri, /*@NotNull*/ String local) {
return node.getAttributeValue(uri, local);
}
/**
* Get the root node - always a document node with this tree implementation
* @return the NodeInfo representing the containing document
*/
public NodeInfo getRoot() {
return docWrapper;
}
/**
* Get the root (document) node
* @return the DocumentInfo representing the containing document
*/
public DocumentInfo getDocumentRoot() {
return (DocumentInfo)docWrapper;
}
/**
* Determine whether the node has any children.
* Note: the result is equivalent to
* getEnumeration(Axis.CHILD, AnyNodeTest.getInstance()).hasNext()
*/
public boolean hasChildNodes() {
return node.hasChildNodes();
}
/**
* Get a character string that uniquely identifies this node.
* Note: a.isSameNode(b) if and only if generateId(a)==generateId(b)
* @param buffer a buffer, into which will be placed
* a string that uniquely identifies this node, within this
* document. The calling code prepends information to make the result
* unique across all documents.
*/
public void generateId(FastStringBuffer buffer) {
// Note: giving the node the same ID as its underlying node is slightly questionable; depends on usage
node.generateId(buffer);
}
/**
* Get the document number of the document containing this node. For a free-standing
* orphan node, just return the hashcode.
*/
public long getDocumentNumber() {
return docWrapper.getDocumentNumber();
}
/**
* Get all namespace undeclarations and undeclarations defined on this element.
*
* @param buffer If this is non-null, and the result array fits in this buffer, then the result
* may overwrite the contents of this array, to avoid the cost of allocating a new array on the heap.
* @return An array of integers representing the namespace declarations and undeclarations present on
* this element. For a node other than an element, return null. Otherwise, the returned array is a
* sequence of namespace codes, whose meaning may be interpreted by reference to the name pool. The
* top half word of each namespace code represents the prefix, the bottom half represents the URI.
* If the bottom half is zero, then this is a namespace undeclaration rather than a declaration.
* The XML namespace is never included in the list. If the supplied array is larger than required,
* then the first unused entry will be set to -1.
*
* For a node other than an element, the method returns null.
*/
public NamespaceBinding[] getDeclaredNamespaces(NamespaceBinding[] buffer) {
return node.getDeclaredNamespaces(buffer);
}
/**
* Determine whether this node has the is-id property
*
* @return true if the node is an ID
*/
public boolean isId() {
return node.isId();
}
/**
* Determine whether this node has the is-idref property
*
* @return true if the node is an IDREF or IDREFS element or attribute
*/
public boolean isIdref() {
return node.isIdref();
}
/**
* Determine whether the node has the is-nilled property
*
* @return true if the node has the is-nilled property
*/
public boolean isNilled() {
return node.isNilled();
}
}