package net.sf.saxon.om;
import net.sf.saxon.Configuration;
import net.sf.saxon.trans.Err;
import net.sf.saxon.event.Receiver;
import net.sf.saxon.event.Builder;
import net.sf.saxon.pattern.NodeTest;
import net.sf.saxon.trans.XPathException;
import net.sf.saxon.type.SchemaType;
import net.sf.saxon.type.Type;
import net.sf.saxon.value.UntypedAtomicValue;
import net.sf.saxon.value.Value;
import net.sf.saxon.value.StringValue;
/**
* A node (implementing the NodeInfo interface) representing an attribute, text node,
* comment, processing instruction, or namespace that has no parent (and of course no children).
* Exceptionally it is also used (during whitespace stripping) to represent a standalone element.
* @author Michael H. Kay
*/
public final class Orphan implements MutableNodeInfo, FingerprintedNode {
private short kind;
private int nameCode = -1;
private CharSequence stringValue;
private int typeAnnotation = -1;
private Configuration config;
private String systemId;
private boolean isId;
private boolean isIdref;
/**
* Create an Orphan node
* @param config the Saxon configuration
*/
public Orphan(Configuration config) {
this.config = config;
}
/**
* Set the node kind
* @param kind the kind of node, for example {@link Type#ELEMENT} or {@link Type#ATTRIBUTE}
*/
public void setNodeKind(short kind) {
this.kind = kind;
}
/**
* Set the name of the node
* @param nameCode the integer code representing the name of the node in the NamePool
*/
public void setNameCode(int nameCode) {
this.nameCode = nameCode;
}
/**
* Set the string value of the node
* @param stringValue the string value of the node
*/
public void setStringValue(CharSequence stringValue) {
this.stringValue = stringValue;
}
/**
* Set the type annotation of the node
* @param typeAnnotation the type annotation, and integer code representing the fingerprint of the type name
*/
public void setTypeAnnotation(int typeAnnotation) {
this.typeAnnotation = typeAnnotation;
}
/**
* Set the base URI of the node
* @param systemId the base URI of the node
*/
public void setSystemId(String systemId) {
this.systemId = systemId;
}
/**
* Set the isId property
* @param id the isId property
*/
public void setIsId(boolean id) {
this.isId = id;
}
/**
* Set the isIdref property
* @param idref the isIdref property
*/
public void setIsIdref(boolean idref) {
this.isIdref = idref;
}
/**
* Return the kind of node.
* @return one of the values Type.ELEMENT, Type.TEXT, Type.ATTRIBUTE, etc.
*/
public int getNodeKind() {
return kind;
}
/**
* Get the typed value of the node
* @return an iterator over the items making up the typed value
*/
public SequenceIterator getTypedValue() throws XPathException {
switch (getNodeKind()) {
case Type.COMMENT:
case Type.PROCESSING_INSTRUCTION:
return SingletonIterator.makeIterator(new StringValue(stringValue));
case Type.TEXT:
case Type.DOCUMENT:
case Type.NAMESPACE:
return SingletonIterator.makeIterator(new UntypedAtomicValue(stringValue));
default:
if (typeAnnotation == -1 || typeAnnotation == StandardNames.XS_UNTYPED ||
typeAnnotation == StandardNames.XS_UNTYPED_ATOMIC) {
return SingletonIterator.makeIterator(new UntypedAtomicValue(stringValue));
} else {
SchemaType stype = config.getSchemaType(typeAnnotation);
if (stype == null) {
String typeName = config.getNamePool().getDisplayName(typeAnnotation);
throw new IllegalStateException("Unknown type annotation " +
Err.wrap(typeName) + " in standalone node");
} else {
return stype.getTypedValue(this);
}
}
}
}
/**
* Get the typed value. The result of this method will always be consistent with the method
* {@link Item#getTypedValue()}. However, this method is often more convenient and may be
* more efficient, especially in the common case where the value is expected to be a singleton.
*
* @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 Value atomize() throws XPathException {
switch (getNodeKind()) {
case Type.COMMENT:
case Type.PROCESSING_INSTRUCTION:
return new StringValue(stringValue);
case Type.TEXT:
case Type.DOCUMENT:
case Type.NAMESPACE:
return new UntypedAtomicValue(stringValue);
default:
if (typeAnnotation == -1 || typeAnnotation == StandardNames.XS_UNTYPED ||
typeAnnotation == StandardNames.XS_UNTYPED_ATOMIC) {
return new UntypedAtomicValue(stringValue);
} else {
SchemaType stype = config.getSchemaType(typeAnnotation);
if (stype == null) {
String typeName = config.getNamePool().getDisplayName(typeAnnotation);
throw new IllegalStateException("Unknown type annotation " +
Err.wrap(typeName) + " in standalone node");
} else {
return stype.atomize(this);
}
}
}
}
/**
* Get the configuration
* @return the Saxon configuration object
*/
public Configuration getConfiguration() {
return config;
}
/**
* Get the name pool
*/
public NamePool getNamePool() {
return config.getNamePool();
}
/**
* Get the type annotation
*/
public int getTypeAnnotation() {
if (typeAnnotation == -1) {
if (kind == Type.ELEMENT) {
return StandardNames.XS_UNTYPED;
} else if (kind == Type.ATTRIBUTE) {
return StandardNames.XS_UNTYPED_ATOMIC;
}
}
return typeAnnotation;
}
/**
* Determine whether this is the same node as another node. <br />
* 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(NodeInfo other) {
return this==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 super.hashCode();
}
/**
* 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.
*/
public String getSystemId() {
return systemId;
}
/**
* Get the Base URI for the node, that is, the URI used for resolving a relative URI contained
* in the node. This will be the same as the System ID unless xml:base has been used.
*/
public String getBaseURI() {
if (kind == Type.PROCESSING_INSTRUCTION) {
return systemId;
} else {
return null;
}
}
/**
* Get line number
* @return the line number of the node in its original source document; or -1 if not available
*/
public int getLineNumber() {
return -1;
}
/**
* Get column number
* @return the column number of the node in its original source document; or -1 if not available
*/
public int getColumnNumber() {
return -1;
}
/**
* 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(NodeInfo other) {
// are they the same node?
if (this.isSameNodeInfo(other)) {
return 0;
}
return (this.hashCode() < other.hashCode() ? -1 : +1);
}
/**
* Return the string value of the node.
* @return the string value of the node
*/
public String getStringValue() {
return stringValue.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() {
return stringValue;
}
/**
* 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 nameCode;
}
/**
* 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() {
if (nameCode == -1) {
return -1;
} else {
return getNameCode()&0xfffff;
}
}
/**
* 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 "".
*/
public String getLocalPart() {
if (nameCode == -1) {
return "";
} else {
return config.getNamePool().getLocalName(nameCode);
}
}
/**
* 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() {
if (nameCode == -1) {
return "";
} else {
return config.getNamePool().getURI(nameCode);
}
}
/**
* 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() {
if (nameCode == -1) {
return "";
} else {
return config.getNamePool().getPrefix(nameCode);
}
}
/**
* 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() {
if (nameCode == -1) {
return "";
} else {
return config.getNamePool().getDisplayName(nameCode);
}
}
/**
* Get the NodeInfo object representing the parent of this node
* @return null - an Orphan has no parent.
*/
public NodeInfo getParent() {
return null;
}
/**
* Return an iteration over the nodes reached by the given axis from this node
* @param axisNumber the axis to be searched, e.g. Axis.CHILD or Axis.ANCESTOR
* @return a SequenceIterator that scans the nodes reached by the axis in turn.
*/
public AxisIterator iterateAxis(byte axisNumber) {
switch (axisNumber) {
case Axis.ANCESTOR_OR_SELF:
case Axis.DESCENDANT_OR_SELF:
case Axis.SELF:
return SingleNodeIterator.makeIterator(this);
case Axis.ANCESTOR:
case Axis.ATTRIBUTE:
case Axis.CHILD:
case Axis.DESCENDANT:
case Axis.FOLLOWING:
case Axis.FOLLOWING_SIBLING:
case Axis.NAMESPACE:
case Axis.PARENT:
case Axis.PRECEDING:
case Axis.PRECEDING_SIBLING:
case Axis.PRECEDING_OR_ANCESTOR:
return EmptyIterator.getInstance();
default:
throw new IllegalArgumentException("Unknown axis number " + axisNumber);
}
}
/**
* Return an iteration over the nodes reached by the given axis from this node
* @param axisNumber the axis to be searched, e.g. Axis.CHILD or Axis.ANCESTOR
* @param nodeTest A pattern to be matched by the returned nodes
* @return a SequenceIterator that scans the nodes reached by the axis in turn.
*/
public AxisIterator iterateAxis(byte axisNumber, NodeTest nodeTest) {
switch (axisNumber) {
case Axis.ANCESTOR_OR_SELF:
case Axis.DESCENDANT_OR_SELF:
case Axis.SELF:
return Navigator.filteredSingleton(this, nodeTest);
case Axis.ANCESTOR:
case Axis.ATTRIBUTE:
case Axis.CHILD:
case Axis.DESCENDANT:
case Axis.FOLLOWING:
case Axis.FOLLOWING_SIBLING:
case Axis.NAMESPACE:
case Axis.PARENT:
case Axis.PRECEDING:
case Axis.PRECEDING_SIBLING:
case Axis.PRECEDING_OR_ANCESTOR:
return EmptyIterator.getInstance();
default:
throw new IllegalArgumentException("Unknown axis number " + axisNumber);
}
}
/**
* Get the value of a given attribute of this node
* @param fingerprint The fingerprint of the attribute name
* @return the attribute value if it exists or null if not
*/
public String getAttributeValue(int fingerprint) {
return null;
}
/**
* Get the root node of this tree (not necessarily a document node).
* Always returns this node in the case of an Orphan node.
*/
public NodeInfo getRoot() {
return this;
}
/**
* Get the root (document) node
* @return the DocumentInfo representing the containing document, or null if the
* node is not part of a document. Always null for an Orphan node.
*/
public DocumentInfo getDocumentRoot() {
return null;
}
/**
* Determine whether the node has any children.
* @return false - an orphan node never has any children
*/
public boolean hasChildNodes() {
return false;
}
/**
* 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) {
buffer.append('Q');
buffer.append(Integer.toString(hashCode()));
}
/**
* Get the document number of the document containing this node. For a free-standing
* orphan node, just return the hashcode.
*/
public long getDocumentNumber() {
return hashCode() & 0xffffff;
// lose the top bits because we need to subtract these values for comparison
}
/**
* Copy this node to a given outputter (deep copy)
*/
public void copy(Receiver out, int whichNamespaces, boolean copyAnnotations, int locationId) throws XPathException {
Navigator.copy(this, out, config.getNamePool(), whichNamespaces, copyAnnotations, locationId);
}
/**
* 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.
* <p/>
* <p>For a node other than an element, the method returns null.</p>
*/
public int[] getDeclaredNamespaces(int[] buffer) {
return null;
}
/**
* Determine whether this node has the is-id property
*
* @return true if the node is an ID
*/
public boolean isId() {
return isId || (kind == Type.ATTRIBUTE && (nameCode & NamePool.FP_MASK) == StandardNames.XML_ID);
}
/**
* 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 isIdref;
}
/**
* Determine whether the node has the is-nilled property
*
* @return true if the node has the is-nilled property
*/
public boolean isNilled() {
return false;
}
/**
* Insert copies of a sequence of nodes as children of this node.
* <p/>
* <p>This method takes no action unless the target node is a document node or element node. It also
* takes no action in respect of any supplied nodes that are not elements, text nodes, comments, or
* processing instructions.</p>
* <p/>
* <p>The supplied nodes will be copied to form the new children. Adjacent text nodes will be merged, and
* zero-length text nodes removed.</p>
* @param source the nodes to be inserted
* @param atStart true if the new nodes are to be inserted before existing children; false if they are
* @param inherit true if the insert nodes are to inherit the namespaces of their new parent; false
* if such namespaces are to be undeclared
*/
public void insertChildren(NodeInfo[] source, boolean atStart, boolean inherit) {
// no action: node is not a document or element node
}
/**
* Insert copies of a sequence of nodes as siblings of this node.
* <p/>
* <p>This method takes no action unless the target node is an element, text node, comment, or
* processing instruction, and one that has a parent node. It also
* takes no action in respect of any supplied nodes that are not elements, text nodes, comments, or
* processing instructions.</p>
* <p/>
* <p>The supplied nodes must use the same data model implementation as the tree into which they
* will be inserted.</p>
* @param source the nodes to be inserted
* @param before true if the new nodes are to be inserted before the target node; false if they are
* @param inherit true if the insert nodes are to inherit the namespaces of their new parent; false
* if such namespaces are to be undeclared
*/
public void insertSiblings(NodeInfo[] source, boolean before, boolean inherit) {
// no action: node has no parent
}
/**
* Remove an attribute from this element node
* <p/>
* <p>If this node is not an element, or if it has no attribute with the specified name,
* this method takes no action.</p>
* <p/>
* <p>The attribute node itself is not modified in any way.</p>
* @param attribute the attribute node to be removed
*/
public void removeAttribute(NodeInfo attribute) {
// no action: node is not an element
}
/**
* Add an attribute to this element node.
* <p/>
* <p>If this node is not an element, or if the supplied node is not an attribute, the method
* takes no action. If the element already has an attribute with this name, the existing attribute
* is replaced.</p>
* @param nameCode the name of the new attribute
* @param typeCode the type annotation of the new attribute
* @param value the string value of the new attribute
* @param properties properties including IS_ID and IS_IDREF properties
*/
public void addAttribute(int nameCode, int typeCode, CharSequence value, int properties) {
// no action: node is not an element
}
/**
* Delete this node (that is, detach it from its parent).
* <p>If this node has preceding and following siblings that are both text nodes,
* the two text nodes will be joined into a single text node (the identity of this node
* with respect to its predecessors is undefined).</p>
*/
public void delete() {
// no action other than to mark it deleted: node has no parent from which it can be detached
kind = -1;
}
/**
* Test whether this MutableNodeInfo object represents a node that has been deleted.
* Generally, such a node is unusable, and any attempt to use it will result in an exception
* being thrown
* @return true if this node has been deleted
*/
public boolean isDeleted() {
return kind == -1;
}
/**
* Replace this node with a given sequence of nodes
* @param replacement the replacement nodes
* @param inherit true if the replacement nodes are to inherit the namespaces of their new parent; false
* if such namespaces are to be undeclared
* @throws IllegalArgumentException if any of the replacement nodes is of the wrong kind. When replacing
* a child node, the replacement nodes must all be elements, text, comment, or PI nodes; when replacing
* an attribute, the replacement nodes must all be attributes.
* @throws IllegalStateException if this node is deleted or if it has no parent node.
*/
public void replace(NodeInfo[] replacement, boolean inherit) {
throw new IllegalStateException("Cannot replace a parentless node");
}
/**
* Replace the string-value of this node. If applied to an element or document node, this
* causes all existing children to be deleted, and replaced with a new text node
* whose string value is the value supplied. The caller is responsible for checking
* that the value is valid, for example that comments do not contain a double hyphen; the
* implementation is not required to check for such conditions.
* @param stringValue the new string value
*/
public void replaceStringValue(CharSequence stringValue) {
this.stringValue = stringValue;
}
/**
* Rename this node.
* <p>This call has no effect if applied to a nameless node, such as a text node or comment.</p>
* <p>If necessary, a new namespace binding will be added to the target element, or to the element
* parent of the target attribute</p>
* @param newNameCode the namecode of the new name in the name pool
* @throws IllegalArgumentException if the new name code is not present in the name pool, or if
* it has a (prefix, uri) pair in which the
* prefix is the same as that of an existing in-scope namespace binding and the uri is different from that
* namespace binding.
*/
public void rename(int newNameCode) {
if (kind==Type.ATTRIBUTE || kind==Type.PROCESSING_INSTRUCTION) {
nameCode = newNameCode;
}
}
/**
* Add a namespace binding (that is, a namespace node) to this element. This call has no effect if applied
* to a node other than an element.
* @param nscode The namespace code representing the (prefix, uri) pair of the namespace binding to be
* added. If the target element already has a namespace binding with this (prefix, uri) pair, the call has
* no effect. If the target element currently has a namespace binding with this prefix and a different URI, an
* exception is raised.
* @param inherit If true, the new namespace binding will be inherited by any children of the target element
* that do not already have a namespace binding for the specified prefix, recursively.
* If false, the new namespace binding will not be inherited.
* @throws IllegalArgumentException if the namespace code is not present in the namepool, or if the target
* element already has a namespace binding for this prefix
*/
public void addNamespace(int nscode, boolean inherit) {
// no action: node is not an element
}
/**
* Remove type information from this node (and its ancestors, recursively).
* This method implements the upd:removeType() primitive defined in the XQuery Update specification.
* (Note: the caller is responsible for updating the set of nodes marked for revalidation)
*/
public void removeTypeAnnotation() {
typeAnnotation = StandardNames.XS_UNTYPED_ATOMIC;
}
/**
* Get a Builder suitable for building nodes that can be attached to this document.
* This implementation always throws an exception: the method should only be called on a document or element
* node when creating new children.
*/
public Builder newBuilder() {
throw new UnsupportedOperationException("Cannot create children for an Orphan node");
}
}
//
// The contents of this file are subject to the Mozilla Public License Version 1.0 (the "License");
// you may not use this file except in compliance with the License. You may obtain a copy of the
// License at http://www.mozilla.org/MPL/
//
// Software distributed under the License is distributed on an "AS IS" basis,
// WITHOUT WARRANTY OF ANY KIND, either express or implied.
// See the License for the specific language governing rights and limitations under the License.
//
// The Original Code is: all this file.
//
// The Initial Developer of the Original Code is
// Michael H. Kay.
//
// Portions created by (your name) are Copyright (C) (your legal entity). All Rights Reserved.
//
// Contributor(s): none.
//