| java.lang.Object net.sf.saxon.pattern.NodeTest
All known Subclasses: net.sf.saxon.pattern.LocalNameTest, net.sf.saxon.pattern.NameTest, net.sf.saxon.pattern.SubstitutionGroupTest, net.sf.saxon.pattern.NoNodeTest, net.sf.saxon.pattern.NodeKindTest, net.sf.saxon.pattern.DocumentNodeTest, net.sf.saxon.pattern.NamespaceTest, net.sf.saxon.pattern.CombinedNodeTest, net.sf.saxon.pattern.AnyChildNodePattern, net.sf.saxon.pattern.AnyNodeTest, net.sf.saxon.pattern.ContentTypeTest,
NodeTest | abstract public class NodeTest implements ItemType,Serializable(Code) | | A NodeTest is a simple kind of pattern that enables a context-free test of whether
a node has a particular
name. There are several kinds of node test: a full name test, a prefix test, and an
"any node of a given type" test, an "any node of any type" test, a "no nodes"
test (used, e.g. for "@comment()").
As well as being used to support XSLT pattern matching, NodeTests act as predicates in
axis steps, and also act as item types for type matching.
author: Michael H. Kay |
getAtomizedItemType | public AtomicType getAtomizedItemType()(Code) | | Get the item type of the atomic values that will be produced when an item
of this type is atomized (assuming that atomization succeeds)
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getContentType | public SchemaType getContentType()(Code) | | Get the content type allowed by this NodeTest (that is, the type annotation of the matched nodes).
Return AnyType if there are no restrictions. The default implementation returns AnyType.
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getDefaultPriority | abstract public double getDefaultPriority()(Code) | | Determine the default priority of this node test when used on its own as a Pattern
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getFingerprint | public int getFingerprint()(Code) | | Get the name of the nodes matched by this nodetest, if it matches a specific name.
Return -1 if the node test matches nodes of more than one name
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getNodeKindMask | abstract public int getNodeKindMask()(Code) | | Get a mask indicating which kinds of nodes this NodeTest can match. This is a combination
of bits: 1< |
getPrimitiveItemType | public ItemType getPrimitiveItemType()(Code) | | Get the primitive item type corresponding to this item type. For item(),
this is Type.ITEM. For node(), it is Type.NODE. For specific node kinds,
it is the value representing the node kind, for example Type.ELEMENT.
For anyAtomicValue it is Type.ATOMIC_VALUE. For numeric it is Type.NUMBER.
For other atomic types it is the primitive type as defined in XML Schema,
except that INTEGER is considered to be a primitive type.
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getPrimitiveType | public int getPrimitiveType()(Code) | | Get the basic kind of object that this ItemType matches: for a NodeTest, this is the kind of node,
or Type.Node if it matches different kinds of nodes.
the node kind matched by this node test |
getRequiredNodeNames | public IntHashSet getRequiredNodeNames()(Code) | | Get the set of node names allowed by this NodeTest. This is returned as a set of Integer fingerprints.
A null value indicates that all names are permitted (i.e. that there are no constraints on the node name.
The default implementation returns null.
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getSuperType | public ItemType getSuperType(TypeHierarchy th)(Code) | | Get the type from which this item type is derived by restriction. This
is the supertype in the XPath type heirarchy, as distinct from the Schema
base type: this means that the supertype of xs:boolean is xdt:anyAtomicType,
whose supertype is item() (rather than xs:anySimpleType).
In fact the concept of "supertype" is not really well-defined, because the types
form a lattice rather than a hierarchy. The only real requirement on this function
is that it returns a type that strictly subsumes this type, ideally as narrowly
as possible.
the supertype, or null if this type is item() Parameters: th - |
isAtomicType | public boolean isAtomicType()(Code) | | Determine whether this item type is atomic (that is, whether it can ONLY match
atomic values)
false: this is not ANY_ATOMIC_TYPE or a subtype thereof |
matches | abstract public boolean matches(TinyTree tree, int nodeNr)(Code) | | Test whether this node test is satisfied by a given node on a TinyTree. The node
must be a document, element, text, comment, or processing instruction node.
This method is provided
so that when navigating a TinyTree a node can be rejected without
actually instantiating a NodeInfo object.
Parameters: tree - the TinyTree containing the node Parameters: nodeNr - the number of the node within the TinyTree true if the node matches the NodeTest, otherwise false |
matches | abstract public boolean matches(int nodeKind, int fingerprint, int annotation)(Code) | | Test whether this node test is satisfied by a given node. This method is only
fully supported for a subset of NodeTests, because it doesn't provide all the information
needed to evaluate all node tests. In particular (a) it can't be used to evaluate a node
test of the form element(N,T) or schema-element(E) where it is necessary to know whether the
node is nilled, and (b) it can't be used to evaluate a node test of the form
document-node(element(X)). This in practice means that it is used (a) to evaluate the
simple node tests found in the XPath 1.0 subset used in XML Schema, and (b) to evaluate
node tests where the node kind is known to be an attribute.
Parameters: nodeKind - The kind of node to be matched Parameters: fingerprint - identifies the expanded name of the node to be matched.The value should be -1 for a node with no name. Parameters: annotation - The actual content type of the node |
matches | abstract public boolean matches(NodeInfo node)(Code) | | Test whether this node test is satisfied by a given node. This alternative
method is used in the case of nodes where calculating the fingerprint is expensive,
for example DOM or JDOM nodes.
Parameters: node - the node to be matched |
matchesItem | public boolean matchesItem(Item item, XPathContext context)(Code) | | Test whether a given item conforms to this type. This implements a method of the ItemType interface.
Parameters: item - The item to be tested Parameters: context - true if the item is an instance of this type; false otherwise |
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