-
UnionPathIterator
-
serialVersionUID: long
-
UnionPathIterator(): void
-
setRoot(int, Object): void
-
addIterator(DTMIterator): void
-
detach(): void
-
UnionPathIterator(Compiler, int): void
-
createUnionIterator(Compiler, int): LocPathIterator
-
getAnalysisBits(): int
-
readObject(ObjectInputStream): void
-
clone(): Object
-
createDTMIterator(Compiler, int): LocPathIterator
-
loadLocationPaths(Compiler, int, int): void
-
nextNode(): int
-
fixupVariables(Vector, int): void
-
m_exprs: LocPathIterator[]
-
m_iterators: DTMIterator[]
-
getAxis(): int
-
iterOwner
-
callVisitors(ExpressionOwner, XPathVisitor): void
-
deepEquals(Expression): boolean
-
/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/*
* $Id: UnionPathIterator.java 469314 2006-10-30 23:31:59Z minchau $
*/
package org.apache.xpath.axes;
import org.apache.xml.dtm.Axis;
import org.apache.xml.dtm.DTM;
import org.apache.xml.dtm.DTMIterator;
import org.apache.xpath.Expression;
import org.apache.xpath.ExpressionOwner;
import org.apache.xpath.XPathVisitor;
import org.apache.xpath.compiler.Compiler;
import org.apache.xpath.compiler.OpCodes;
import org.apache.xpath.compiler.OpMap;
This class extends NodeSetDTM, which implements DTMIterator,
and fetches nodes one at a time in document order based on a XPath
UnionExpr.
As each node is iterated via nextNode(), the node is also stored
in the NodeVector, so that previousNode() can easily be done.
@xsl.usage advanced
/**
* This class extends NodeSetDTM, which implements DTMIterator,
* and fetches nodes one at a time in document order based on a XPath
* <a href="http://www.w3.org/TR/xpath#NT-UnionExpr">UnionExpr</a>.
* As each node is iterated via nextNode(), the node is also stored
* in the NodeVector, so that previousNode() can easily be done.
* @xsl.usage advanced
*/
public class UnionPathIterator extends LocPathIterator
implements Cloneable, DTMIterator, java.io.Serializable, PathComponent
{
static final long serialVersionUID = -3910351546843826781L;
Constructor to create an instance which you can add location paths to.
/**
* Constructor to create an instance which you can add location paths to.
*/
public UnionPathIterator()
{
super();
// m_mutable = false;
// m_cacheNodes = false;
m_iterators = null;
m_exprs = null;
}
Initialize the context values for this expression
after it is cloned.
Params: - context – The XPath runtime context for this
transformation.
/**
* Initialize the context values for this expression
* after it is cloned.
*
* @param context The XPath runtime context for this
* transformation.
*/
public void setRoot(int context, Object environment)
{
super.setRoot(context, environment);
try
{
if (null != m_exprs)
{
int n = m_exprs.length;
DTMIterator newIters[] = new DTMIterator[n];
for (int i = 0; i < n; i++)
{
DTMIterator iter = m_exprs[i].asIterator(m_execContext, context);
newIters[i] = iter;
iter.nextNode();
}
m_iterators = newIters;
}
}
catch(Exception e)
{
throw new org.apache.xml.utils.WrappedRuntimeException(e);
}
}
Add an iterator to the union list.
Params: - expr – non-null reference to a location path iterator.
/**
* Add an iterator to the union list.
*
* @param expr non-null reference to a location path iterator.
*/
public void addIterator(DTMIterator expr)
{
// Increase array size by only 1 at a time. Fix this
// if it looks to be a problem.
if (null == m_iterators)
{
m_iterators = new DTMIterator[1];
m_iterators[0] = expr;
}
else
{
DTMIterator[] exprs = m_iterators;
int len = m_iterators.length;
m_iterators = new DTMIterator[len + 1];
System.arraycopy(exprs, 0, m_iterators, 0, len);
m_iterators[len] = expr;
}
expr.nextNode();
if(expr instanceof Expression)
((Expression)expr).exprSetParent(this);
}
Detaches the iterator from the set which it iterated over, releasing
any computational resources and placing the iterator in the INVALID
state. Afterdetach has been invoked, calls to
nextNode orpreviousNode will raise the
exception INVALID_STATE_ERR.
/**
* Detaches the iterator from the set which it iterated over, releasing
* any computational resources and placing the iterator in the INVALID
* state. After<code>detach</code> has been invoked, calls to
* <code>nextNode</code> or<code>previousNode</code> will raise the
* exception INVALID_STATE_ERR.
*/
public void detach()
{
if(m_allowDetach && null != m_iterators){
int n = m_iterators.length;
for(int i = 0; i < n; i++)
{
m_iterators[i].detach();
}
m_iterators = null;
}
}
Create a UnionPathIterator object, including creation
of location path iterators from the opcode list, and call back
into the Compiler to create predicate expressions.
Params: - compiler – The Compiler which is creating
this expression.
- opPos – The position of this iterator in the
opcode list from the compiler.
Throws:
/**
* Create a UnionPathIterator object, including creation
* of location path iterators from the opcode list, and call back
* into the Compiler to create predicate expressions.
*
* @param compiler The Compiler which is creating
* this expression.
* @param opPos The position of this iterator in the
* opcode list from the compiler.
*
* @throws javax.xml.transform.TransformerException
*/
public UnionPathIterator(Compiler compiler, int opPos)
throws javax.xml.transform.TransformerException
{
super();
opPos = OpMap.getFirstChildPos(opPos);
loadLocationPaths(compiler, opPos, 0);
}
This will return an iterator capable of handling the union of paths given.
Params: - compiler – The Compiler which is creating
this expression.
- opPos – The position of this iterator in the
opcode list from the compiler.
Throws: Returns: Object that is derived from LocPathIterator.
/**
* This will return an iterator capable of handling the union of paths given.
*
* @param compiler The Compiler which is creating
* this expression.
* @param opPos The position of this iterator in the
* opcode list from the compiler.
*
* @return Object that is derived from LocPathIterator.
*
* @throws javax.xml.transform.TransformerException
*/
public static LocPathIterator createUnionIterator(Compiler compiler, int opPos)
throws javax.xml.transform.TransformerException
{
// For the moment, I'm going to first create a full UnionPathIterator, and
// then see if I can reduce it to a UnionChildIterator. It would obviously
// be more effecient to just test for the conditions for a UnionChildIterator,
// and then create that directly.
UnionPathIterator upi = new UnionPathIterator(compiler, opPos);
int nPaths = upi.m_exprs.length;
boolean isAllChildIterators = true;
for(int i = 0; i < nPaths; i++)
{
LocPathIterator lpi = upi.m_exprs[i];
if(lpi.getAxis() != Axis.CHILD)
{
isAllChildIterators = false;
break;
}
else
{
// check for positional predicates or position function, which won't work.
if(HasPositionalPredChecker.check(lpi))
{
isAllChildIterators = false;
break;
}
}
}
if(isAllChildIterators)
{
UnionChildIterator uci = new UnionChildIterator();
for(int i = 0; i < nPaths; i++)
{
PredicatedNodeTest lpi = upi.m_exprs[i];
// I could strip the lpi down to a pure PredicatedNodeTest, but
// I don't think it's worth it. Note that the test can be used
// as a static object... so it doesn't have to be cloned.
uci.addNodeTest(lpi);
}
return uci;
}
else
return upi;
}
Get the analysis bits for this walker, as defined in the WalkerFactory.
Returns: One of WalkerFactory#BIT_DESCENDANT, etc.
/**
* Get the analysis bits for this walker, as defined in the WalkerFactory.
* @return One of WalkerFactory#BIT_DESCENDANT, etc.
*/
public int getAnalysisBits()
{
int bits = 0;
if (m_exprs != null)
{
int n = m_exprs.length;
for (int i = 0; i < n; i++)
{
int bit = m_exprs[i].getAnalysisBits();
bits |= bit;
}
}
return bits;
}
Read the object from a serialization stream.
Params: - stream – Input stream to read from
Throws:
/**
* Read the object from a serialization stream.
*
* @param stream Input stream to read from
*
* @throws java.io.IOException
* @throws javax.xml.transform.TransformerException
*/
private void readObject(java.io.ObjectInputStream stream)
throws java.io.IOException, javax.xml.transform.TransformerException
{
try
{
stream.defaultReadObject();
m_clones = new IteratorPool(this);
}
catch (ClassNotFoundException cnfe)
{
throw new javax.xml.transform.TransformerException(cnfe);
}
}
Get a cloned LocPathIterator that holds the same
position as this iterator.
Throws: Returns: A clone of this iterator that holds the same node position.
/**
* Get a cloned LocPathIterator that holds the same
* position as this iterator.
*
* @return A clone of this iterator that holds the same node position.
*
* @throws CloneNotSupportedException
*/
public Object clone() throws CloneNotSupportedException
{
UnionPathIterator clone = (UnionPathIterator) super.clone();
if (m_iterators != null)
{
int n = m_iterators.length;
clone.m_iterators = new DTMIterator[n];
for (int i = 0; i < n; i++)
{
clone.m_iterators[i] = (DTMIterator)m_iterators[i].clone();
}
}
return clone;
}
Create a new location path iterator.
Params: - compiler – The Compiler which is creating
this expression.
- opPos – The position of this iterator in the
Throws: Returns: New location path iterator.
/**
* Create a new location path iterator.
*
* @param compiler The Compiler which is creating
* this expression.
* @param opPos The position of this iterator in the
*
* @return New location path iterator.
*
* @throws javax.xml.transform.TransformerException
*/
protected LocPathIterator createDTMIterator(
Compiler compiler, int opPos) throws javax.xml.transform.TransformerException
{
LocPathIterator lpi = (LocPathIterator)WalkerFactory.newDTMIterator(compiler, opPos,
(compiler.getLocationPathDepth() <= 0));
return lpi;
}
Initialize the location path iterators. Recursive.
Params: - compiler – The Compiler which is creating
this expression.
- opPos – The position of this iterator in the
opcode list from the compiler.
- count – The insert position of the iterator.
Throws:
/**
* Initialize the location path iterators. Recursive.
*
* @param compiler The Compiler which is creating
* this expression.
* @param opPos The position of this iterator in the
* opcode list from the compiler.
* @param count The insert position of the iterator.
*
* @throws javax.xml.transform.TransformerException
*/
protected void loadLocationPaths(Compiler compiler, int opPos, int count)
throws javax.xml.transform.TransformerException
{
// TODO: Handle unwrapped FilterExpr
int steptype = compiler.getOp(opPos);
if (steptype == OpCodes.OP_LOCATIONPATH)
{
loadLocationPaths(compiler, compiler.getNextOpPos(opPos), count + 1);
m_exprs[count] = createDTMIterator(compiler, opPos);
m_exprs[count].exprSetParent(this);
}
else
{
// Have to check for unwrapped functions, which the LocPathIterator
// doesn't handle.
switch (steptype)
{
case OpCodes.OP_VARIABLE :
case OpCodes.OP_EXTFUNCTION :
case OpCodes.OP_FUNCTION :
case OpCodes.OP_GROUP :
loadLocationPaths(compiler, compiler.getNextOpPos(opPos), count + 1);
WalkingIterator iter =
new WalkingIterator(compiler.getNamespaceContext());
iter.exprSetParent(this);
if(compiler.getLocationPathDepth() <= 0)
iter.setIsTopLevel(true);
iter.m_firstWalker = new org.apache.xpath.axes.FilterExprWalker(iter);
iter.m_firstWalker.init(compiler, opPos, steptype);
m_exprs[count] = iter;
break;
default :
m_exprs = new LocPathIterator[count];
}
}
}
Returns the next node in the set and advances the position of the
iterator in the set. After a DTMIterator is created, the first call
to nextNode() returns the first node in the set.
Returns: The next Node in the set being iterated over, or
null if there are no more members in that set.
/**
* Returns the next node in the set and advances the position of the
* iterator in the set. After a DTMIterator is created, the first call
* to nextNode() returns the first node in the set.
* @return The next <code>Node</code> in the set being iterated over, or
* <code>null</code> if there are no more members in that set.
*/
public int nextNode()
{
if(m_foundLast)
return DTM.NULL;
// Loop through the iterators getting the current fetched
// node, and get the earliest occuring in document order
int earliestNode = DTM.NULL;
if (null != m_iterators)
{
int n = m_iterators.length;
int iteratorUsed = -1;
for (int i = 0; i < n; i++)
{
int node = m_iterators[i].getCurrentNode();
if (DTM.NULL == node)
continue;
else if (DTM.NULL == earliestNode)
{
iteratorUsed = i;
earliestNode = node;
}
else
{
if (node == earliestNode)
{
// Found a duplicate, so skip past it.
m_iterators[i].nextNode();
}
else
{
DTM dtm = getDTM(node);
if (dtm.isNodeAfter(node, earliestNode))
{
iteratorUsed = i;
earliestNode = node;
}
}
}
}
if (DTM.NULL != earliestNode)
{
m_iterators[iteratorUsed].nextNode();
incrementCurrentPos();
}
else
m_foundLast = true;
}
m_lastFetched = earliestNode;
return earliestNode;
}
This function is used to fixup variables from QNames to stack frame
indexes at stylesheet build time.
Params: - vars – List of QNames that correspond to variables. This list
should be searched backwards for the first qualified name that
corresponds to the variable reference qname. The position of the
QName in the vector from the start of the vector will be its position
in the stack frame (but variables above the globalsTop value will need
to be offset to the current stack frame).
/**
* This function is used to fixup variables from QNames to stack frame
* indexes at stylesheet build time.
* @param vars List of QNames that correspond to variables. This list
* should be searched backwards for the first qualified name that
* corresponds to the variable reference qname. The position of the
* QName in the vector from the start of the vector will be its position
* in the stack frame (but variables above the globalsTop value will need
* to be offset to the current stack frame).
*/
public void fixupVariables(java.util.Vector vars, int globalsSize)
{
for (int i = 0; i < m_exprs.length; i++)
{
m_exprs[i].fixupVariables(vars, globalsSize);
}
}
The location path iterators, one for each
location
path contained in the union expression.
@serial
/**
* The location path iterators, one for each
* <a href="http://www.w3.org/TR/xpath#NT-LocationPath">location
* path</a> contained in the union expression.
* @serial
*/
protected LocPathIterator[] m_exprs;
The location path iterators, one for each
location
path contained in the union expression.
@serial
/**
* The location path iterators, one for each
* <a href="http://www.w3.org/TR/xpath#NT-LocationPath">location
* path</a> contained in the union expression.
* @serial
*/
protected DTMIterator[] m_iterators;
Returns the axis being iterated, if it is known.
Returns: Axis.CHILD, etc., or -1 if the axis is not known or is of multiple
types.
/**
* Returns the axis being iterated, if it is known.
*
* @return Axis.CHILD, etc., or -1 if the axis is not known or is of multiple
* types.
*/
public int getAxis()
{
// Could be smarter.
return -1;
}
class iterOwner implements ExpressionOwner
{
int m_index;
iterOwner(int index)
{
m_index = index;
}
See Also: - getExpression.getExpression()
/**
* @see ExpressionOwner#getExpression()
*/
public Expression getExpression()
{
return m_exprs[m_index];
}
See Also: - setExpression.setExpression(Expression)
/**
* @see ExpressionOwner#setExpression(Expression)
*/
public void setExpression(Expression exp)
{
if(!(exp instanceof LocPathIterator))
{
// Yuck. Need FilterExprIter. Or make it so m_exprs can be just
// plain expressions?
WalkingIterator wi = new WalkingIterator(getPrefixResolver());
FilterExprWalker few = new FilterExprWalker(wi);
wi.setFirstWalker(few);
few.setInnerExpression(exp);
wi.exprSetParent(UnionPathIterator.this);
few.exprSetParent(wi);
exp.exprSetParent(few);
exp = wi;
}
else
exp.exprSetParent(UnionPathIterator.this);
m_exprs[m_index] = (LocPathIterator)exp;
}
}
See Also: - callVisitors.callVisitors(ExpressionOwner, XPathVisitor)
/**
* @see org.apache.xpath.XPathVisitable#callVisitors(ExpressionOwner, XPathVisitor)
*/
public void callVisitors(ExpressionOwner owner, XPathVisitor visitor)
{
if(visitor.visitUnionPath(owner, this))
{
if(null != m_exprs)
{
int n = m_exprs.length;
for(int i = 0; i < n; i++)
{
m_exprs[i].callVisitors(new iterOwner(i), visitor);
}
}
}
}
See Also: - deepEquals.deepEquals(Expression)
/**
* @see Expression#deepEquals(Expression)
*/
public boolean deepEquals(Expression expr)
{
if (!super.deepEquals(expr))
return false;
UnionPathIterator upi = (UnionPathIterator) expr;
if (null != m_exprs)
{
int n = m_exprs.length;
if((null == upi.m_exprs) || (upi.m_exprs.length != n))
return false;
for (int i = 0; i < n; i++)
{
if(!m_exprs[i].deepEquals(upi.m_exprs[i]))
return false;
}
}
else if (null != upi.m_exprs)
{
return false;
}
return true;
}
}