/*
* Copyright (c) 2017, Oracle and/or its affiliates. All rights reserved.
*/
/*
* 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.
*/
package com.sun.org.apache.xpath.internal.compiler;
import com.sun.org.apache.xalan.internal.res.XSLMessages;
import com.sun.org.apache.xml.internal.utils.ObjectVector;
import com.sun.org.apache.xpath.internal.patterns.NodeTest;
import com.sun.org.apache.xpath.internal.res.XPATHErrorResources;
This class represents the data structure basics of the XPath
object.
@LastModified : Nov 2017
/**
* This class represents the data structure basics of the XPath
* object.
*
* @LastModified: Nov 2017
*/
public class OpMap
{
The current pattern string, for diagnostics purposes
/**
* The current pattern string, for diagnostics purposes
*/
protected String m_currentPattern;
Return the expression as a string for diagnostics.
Returns: The expression string.
/**
* Return the expression as a string for diagnostics.
*
* @return The expression string.
*/
public String toString()
{
return m_currentPattern;
}
Return the expression as a string for diagnostics.
Returns: The expression string.
/**
* Return the expression as a string for diagnostics.
*
* @return The expression string.
*/
public String getPatternString()
{
return m_currentPattern;
}
The starting size of the token queue.
/**
* The starting size of the token queue.
*/
static final int MAXTOKENQUEUESIZE = 500;
/*
* Amount to grow token queue when it becomes full
*/
static final int BLOCKTOKENQUEUESIZE = 500;
TokenStack is the queue of used tokens. The current token is the token at the
end of the m_tokenQueue. The idea is that the queue can be marked and a sequence
of tokens can be reused.
/**
* TokenStack is the queue of used tokens. The current token is the token at the
* end of the m_tokenQueue. The idea is that the queue can be marked and a sequence
* of tokens can be reused.
*/
ObjectVector m_tokenQueue = new ObjectVector(MAXTOKENQUEUESIZE, BLOCKTOKENQUEUESIZE);
Get the XPath as a list of tokens.
Returns: ObjectVector of tokens.
/**
* Get the XPath as a list of tokens.
*
* @return ObjectVector of tokens.
*/
public ObjectVector getTokenQueue()
{
return m_tokenQueue;
}
Get the XPath as a list of tokens.
Params: - pos – index into token queue.
Returns: The token, normally a string.
/**
* Get the XPath as a list of tokens.
*
* @param pos index into token queue.
*
* @return The token, normally a string.
*/
public Object getToken(int pos)
{
return m_tokenQueue.elementAt(pos);
}
/**
* The current size of the token queue.
*/
// public int m_tokenQueueSize = 0;
Get size of the token queue.
Returns: The size of the token queue.
/**
* Get size of the token queue.
*
* @return The size of the token queue.
*/
public int getTokenQueueSize()
{
return m_tokenQueue.size();
}
An operations map is used instead of a proper parse tree. It contains
operations codes and indexes into the m_tokenQueue.
I use an array instead of a full parse tree in order to cut down
on the number of objects created.
/**
* An operations map is used instead of a proper parse tree. It contains
* operations codes and indexes into the m_tokenQueue.
* I use an array instead of a full parse tree in order to cut down
* on the number of objects created.
*/
OpMapVector m_opMap = null;
Get the opcode list that describes the XPath operations. It contains
operations codes and indexes into the m_tokenQueue.
I use an array instead of a full parse tree in order to cut down
on the number of objects created.
Returns: An IntVector that is the opcode list that describes the XPath operations.
/**
* Get the opcode list that describes the XPath operations. It contains
* operations codes and indexes into the m_tokenQueue.
* I use an array instead of a full parse tree in order to cut down
* on the number of objects created.
*
* @return An IntVector that is the opcode list that describes the XPath operations.
*/
public OpMapVector getOpMap()
{
return m_opMap;
}
// Position indexes
The length is always the opcode position + 1.
Length is always expressed as the opcode+length bytes,
so it is always 2 or greater.
/**
* The length is always the opcode position + 1.
* Length is always expressed as the opcode+length bytes,
* so it is always 2 or greater.
*/
public static final int MAPINDEX_LENGTH = 1;
Replace the large arrays
with a small array.
/**
* Replace the large arrays
* with a small array.
*/
void shrink()
{
int n = m_opMap.elementAt(MAPINDEX_LENGTH);
m_opMap.setToSize(n + 4);
m_opMap.setElementAt(0,n);
m_opMap.setElementAt(0,n+1);
m_opMap.setElementAt(0,n+2);
n = m_tokenQueue.size();
m_tokenQueue.setToSize(n + 4);
m_tokenQueue.setElementAt(null,n);
m_tokenQueue.setElementAt(null,n + 1);
m_tokenQueue.setElementAt(null,n + 2);
}
Given an operation position, return the current op.
Params: - opPos – index into op map.
Returns: the op that corresponds to the opPos argument.
/**
* Given an operation position, return the current op.
*
* @param opPos index into op map.
* @return the op that corresponds to the opPos argument.
*/
public int getOp(int opPos)
{
return m_opMap.elementAt(opPos);
}
Set the op at index to the given int.
Params: - opPos – index into op map.
- value – Value to set
/**
* Set the op at index to the given int.
*
* @param opPos index into op map.
* @param value Value to set
*/
public void setOp(int opPos, int value)
{
m_opMap.setElementAt(value,opPos);
}
Given an operation position, return the end position, i.e. the
beginning of the next operation.
Params: - opPos – An op position of an operation for which there is a size
entry following.
Returns: position of next operation in m_opMap.
/**
* Given an operation position, return the end position, i.e. the
* beginning of the next operation.
*
* @param opPos An op position of an operation for which there is a size
* entry following.
* @return position of next operation in m_opMap.
*/
public int getNextOpPos(int opPos)
{
return opPos + m_opMap.elementAt(opPos + 1);
}
Given a location step position, return the end position, i.e. the
beginning of the next step.
Params: - opPos – the position of a location step.
Returns: the position of the next location step.
/**
* Given a location step position, return the end position, i.e. the
* beginning of the next step.
*
* @param opPos the position of a location step.
* @return the position of the next location step.
*/
public int getNextStepPos(int opPos)
{
int stepType = getOp(opPos);
if ((stepType >= OpCodes.AXES_START_TYPES)
&& (stepType <= OpCodes.AXES_END_TYPES))
{
return getNextOpPos(opPos);
}
else if ((stepType >= OpCodes.FIRST_NODESET_OP)
&& (stepType <= OpCodes.LAST_NODESET_OP))
{
int newOpPos = getNextOpPos(opPos);
while (OpCodes.OP_PREDICATE == getOp(newOpPos))
{
newOpPos = getNextOpPos(newOpPos);
}
stepType = getOp(newOpPos);
if (!((stepType >= OpCodes.AXES_START_TYPES)
&& (stepType <= OpCodes.AXES_END_TYPES)))
{
return OpCodes.ENDOP;
}
return newOpPos;
}
else
{
throw new RuntimeException(
XSLMessages.createXPATHMessage(XPATHErrorResources.ER_UNKNOWN_STEP, new Object[]{String.valueOf(stepType)}));
//"Programmer's assertion in getNextStepPos: unknown stepType: " + stepType);
}
}
Given an operation position, return the end position, i.e. the
beginning of the next operation.
Params: - opMap – The operations map.
- opPos – index to operation, for which there is a size entry following.
Returns: position of next operation in m_opMap.
/**
* Given an operation position, return the end position, i.e. the
* beginning of the next operation.
*
* @param opMap The operations map.
* @param opPos index to operation, for which there is a size entry following.
* @return position of next operation in m_opMap.
*/
public static int getNextOpPos(int[] opMap, int opPos)
{
return opPos + opMap[opPos + 1];
}
Given an FROM_stepType position, return the position of the
first predicate, if there is one, or else this will point
to the end of the FROM_stepType.
Example:
int posOfPredicate = xpath.getNextOpPos(stepPos);
boolean hasPredicates =
OpCodes.OP_PREDICATE == xpath.getOp(posOfPredicate);
Params: - opPos – position of FROM_stepType op.
Returns: position of predicate in FROM_stepType structure.
/**
* Given an FROM_stepType position, return the position of the
* first predicate, if there is one, or else this will point
* to the end of the FROM_stepType.
* Example:
* int posOfPredicate = xpath.getNextOpPos(stepPos);
* boolean hasPredicates =
* OpCodes.OP_PREDICATE == xpath.getOp(posOfPredicate);
*
* @param opPos position of FROM_stepType op.
* @return position of predicate in FROM_stepType structure.
*/
public int getFirstPredicateOpPos(int opPos)
throws javax.xml.transform.TransformerException
{
int stepType = m_opMap.elementAt(opPos);
if ((stepType >= OpCodes.AXES_START_TYPES)
&& (stepType <= OpCodes.AXES_END_TYPES))
{
return opPos + m_opMap.elementAt(opPos + 2);
}
else if ((stepType >= OpCodes.FIRST_NODESET_OP)
&& (stepType <= OpCodes.LAST_NODESET_OP))
{
return opPos + m_opMap.elementAt(opPos + 1);
}
else if(-2 == stepType)
{
return -2;
}
else
{
error(com.sun.org.apache.xpath.internal.res.XPATHErrorResources.ER_UNKNOWN_OPCODE,
new Object[]{ String.valueOf(stepType) }); //"ERROR! Unknown op code: "+m_opMap[opPos]);
return -1;
}
}
Tell the user of an error, and probably throw an
exception.
Params: - msg – An error msgkey that corresponds to one of the constants found in
XPATHErrorResources
, which is a key for a format string. - args – An array of arguments represented in the format string, which
may be null.
Throws: - TransformerException – if the current ErrorListoner determines to
throw an exception.
/**
* Tell the user of an error, and probably throw an
* exception.
*
* @param msg An error msgkey that corresponds to one of the constants found
* in {@link com.sun.org.apache.xpath.internal.res.XPATHErrorResources}, which is
* a key for a format string.
* @param args An array of arguments represented in the format string, which
* may be null.
*
* @throws TransformerException if the current ErrorListoner determines to
* throw an exception.
*/
public void error(String msg, Object[] args) throws javax.xml.transform.TransformerException
{
java.lang.String fmsg = com.sun.org.apache.xalan.internal.res.XSLMessages.createXPATHMessage(msg, args);
throw new javax.xml.transform.TransformerException(fmsg);
}
Go to the first child of a given operation.
Params: - opPos – position of operation.
Returns: The position of the first child of the operation.
/**
* Go to the first child of a given operation.
*
* @param opPos position of operation.
*
* @return The position of the first child of the operation.
*/
public static int getFirstChildPos(int opPos)
{
return opPos + 2;
}
Get the length of an operation.
Params: - opPos – The position of the operation in the op map.
Returns: The size of the operation.
/**
* Get the length of an operation.
*
* @param opPos The position of the operation in the op map.
*
* @return The size of the operation.
*/
public int getArgLength(int opPos)
{
return m_opMap.elementAt(opPos + MAPINDEX_LENGTH);
}
Given a location step, get the length of that step.
Params: - opPos – Position of location step in op map.
Returns: The length of the step.
/**
* Given a location step, get the length of that step.
*
* @param opPos Position of location step in op map.
*
* @return The length of the step.
*/
public int getArgLengthOfStep(int opPos)
{
return m_opMap.elementAt(opPos + MAPINDEX_LENGTH + 1) - 3;
}
Get the first child position of a given location step.
Params: - opPos – Position of location step in the location map.
Returns: The first child position of the step.
/**
* Get the first child position of a given location step.
*
* @param opPos Position of location step in the location map.
*
* @return The first child position of the step.
*/
public static int getFirstChildPosOfStep(int opPos)
{
return opPos + 3;
}
Get the test type of the step, i.e. NODETYPE_XXX value.
Params: - opPosOfStep – The position of the FROM_XXX step.
Returns: NODETYPE_XXX value.
/**
* Get the test type of the step, i.e. NODETYPE_XXX value.
*
* @param opPosOfStep The position of the FROM_XXX step.
*
* @return NODETYPE_XXX value.
*/
public int getStepTestType(int opPosOfStep)
{
return m_opMap.elementAt(opPosOfStep + 3); // skip past op, len, len without predicates
}
Get the namespace of the step.
Params: - opPosOfStep – The position of the FROM_XXX step.
Returns: The step's namespace, NodeTest.WILD, or null for null namespace.
/**
* Get the namespace of the step.
*
* @param opPosOfStep The position of the FROM_XXX step.
*
* @return The step's namespace, NodeTest.WILD, or null for null namespace.
*/
public String getStepNS(int opPosOfStep)
{
int argLenOfStep = getArgLengthOfStep(opPosOfStep);
// System.out.println("getStepNS.argLenOfStep: "+argLenOfStep);
if (argLenOfStep == 3)
{
int index = m_opMap.elementAt(opPosOfStep + 4);
if (index >= 0)
return (String) m_tokenQueue.elementAt(index);
else if (OpCodes.ELEMWILDCARD == index)
return NodeTest.WILD;
else
return null;
}
else
return null;
}
Get the local name of the step.
Params: - opPosOfStep – The position of the FROM_XXX step.
Returns: OpCodes.EMPTY, OpCodes.ELEMWILDCARD, or the local name.
/**
* Get the local name of the step.
* @param opPosOfStep The position of the FROM_XXX step.
*
* @return OpCodes.EMPTY, OpCodes.ELEMWILDCARD, or the local name.
*/
public String getStepLocalName(int opPosOfStep)
{
int argLenOfStep = getArgLengthOfStep(opPosOfStep);
// System.out.println("getStepLocalName.argLenOfStep: "+argLenOfStep);
int index;
switch (argLenOfStep)
{
case 0 :
index = OpCodes.EMPTY;
break;
case 1 :
index = OpCodes.ELEMWILDCARD;
break;
case 2 :
index = m_opMap.elementAt(opPosOfStep + 4);
break;
case 3 :
index = m_opMap.elementAt(opPosOfStep + 5);
break;
default :
index = OpCodes.EMPTY;
break; // Should assert error
}
// int index = (argLenOfStep == 3) ? m_opMap[opPosOfStep+5]
// : ((argLenOfStep == 1) ? -3 : -2);
if (index >= 0)
return m_tokenQueue.elementAt(index).toString();
else if (OpCodes.ELEMWILDCARD == index)
return NodeTest.WILD;
else
return null;
}
}