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/*
* $Id: XPathParser.java,v 1.8 2010-11-01 04:35:07 joehw Exp $
*/
package com.sun.org.apache.xpath.internal.compiler;
import javax.xml.transform.ErrorListener;
import javax.xml.transform.TransformerException;
import com.sun.org.apache.xalan.internal.res.XSLMessages;
import com.sun.org.apache.xml.internal.utils.PrefixResolver;
import com.sun.org.apache.xpath.internal.XPathProcessorException;
import com.sun.org.apache.xpath.internal.domapi.XPathStylesheetDOM3Exception;
import com.sun.org.apache.xpath.internal.objects.XNumber;
import com.sun.org.apache.xpath.internal.objects.XString;
import com.sun.org.apache.xpath.internal.res.XPATHErrorResources;
/**
* Tokenizes and parses XPath expressions. This should really be named
* XPathParserImpl, and may be renamed in the future.
* @xsl.usage general
*/
public class XPathParser
{
// %REVIEW% Is there a better way of doing this?
// Upside is minimum object churn. Downside is that we don't have a useful
// backtrace in the exception itself -- but we don't expect to need one.
static public final String CONTINUE_AFTER_FATAL_ERROR="CONTINUE_AFTER_FATAL_ERROR";
/**
* The XPath to be processed.
*/
private OpMap m_ops;
/**
* The next token in the pattern.
*/
transient String m_token;
/**
* The first char in m_token, the theory being that this
* is an optimization because we won't have to do charAt(0) as
* often.
*/
transient char m_tokenChar = 0;
/**
* The position in the token queue is tracked by m_queueMark.
*/
int m_queueMark = 0;
/**
* Results from checking FilterExpr syntax
*/
protected final static int FILTER_MATCH_FAILED = 0;
protected final static int FILTER_MATCH_PRIMARY = 1;
protected final static int FILTER_MATCH_PREDICATES = 2;
/**
* The parser constructor.
*/
public XPathParser(ErrorListener errorListener, javax.xml.transform.SourceLocator sourceLocator)
{
m_errorListener = errorListener;
m_sourceLocator = sourceLocator;
}
/**
* The prefix resolver to map prefixes to namespaces in the OpMap.
*/
PrefixResolver m_namespaceContext;
/**
* Given an string, init an XPath object for selections,
* in order that a parse doesn't
* have to be done each time the expression is evaluated.
*
* @param compiler The compiler object.
* @param expression A string conforming to the XPath grammar.
* @param namespaceContext An object that is able to resolve prefixes in
* the XPath to namespaces.
*
* @throws javax.xml.transform.TransformerException
*/
public void initXPath(
Compiler compiler, String expression, PrefixResolver namespaceContext)
throws javax.xml.transform.TransformerException
{
m_ops = compiler;
m_namespaceContext = namespaceContext;
m_functionTable = compiler.getFunctionTable();
Lexer lexer = new Lexer(compiler, namespaceContext, this);
lexer.tokenize(expression);
m_ops.setOp(0,OpCodes.OP_XPATH);
m_ops.setOp(OpMap.MAPINDEX_LENGTH,2);
// Patch for Christine's gripe. She wants her errorHandler to return from
// a fatal error and continue trying to parse, rather than throwing an exception.
// Without the patch, that put us into an endless loop.
//
// %REVIEW% Is there a better way of doing this?
// %REVIEW% Are there any other cases which need the safety net?
// (and if so do we care right now, or should we rewrite the XPath
// grammar engine and can fix it at that time?)
try {
nextToken();
Expr();
if (null != m_token)
{
String extraTokens = "";
while (null != m_token)
{
extraTokens += "'" + m_token + "'";
nextToken();
if (null != m_token)
extraTokens += ", ";
}
error(XPATHErrorResources.ER_EXTRA_ILLEGAL_TOKENS,
new Object[]{ extraTokens }); //"Extra illegal tokens: "+extraTokens);
}
}
catch (com.sun.org.apache.xpath.internal.XPathProcessorException e)
{
if(CONTINUE_AFTER_FATAL_ERROR.equals(e.getMessage()))
{
// What I _want_ to do is null out this XPath.
// I doubt this has the desired effect, but I'm not sure what else to do.
// %REVIEW%!!!
initXPath(compiler, "/..", namespaceContext);
}
else
throw e;
}
compiler.shrink();
}
/**
* Given an string, init an XPath object for pattern matches,
* in order that a parse doesn't
* have to be done each time the expression is evaluated.
* @param compiler The XPath object to be initialized.
* @param expression A String representing the XPath.
* @param namespaceContext An object that is able to resolve prefixes in
* the XPath to namespaces.
*
* @throws javax.xml.transform.TransformerException
*/
public void initMatchPattern(
Compiler compiler, String expression, PrefixResolver namespaceContext)
throws javax.xml.transform.TransformerException
{
m_ops = compiler;
m_namespaceContext = namespaceContext;
m_functionTable = compiler.getFunctionTable();
Lexer lexer = new Lexer(compiler, namespaceContext, this);
lexer.tokenize(expression);
m_ops.setOp(0, OpCodes.OP_MATCHPATTERN);
m_ops.setOp(OpMap.MAPINDEX_LENGTH, 2);
nextToken();
Pattern();
if (null != m_token)
{
String extraTokens = "";
while (null != m_token)
{
extraTokens += "'" + m_token + "'";
nextToken();
if (null != m_token)
extraTokens += ", ";
}
error(XPATHErrorResources.ER_EXTRA_ILLEGAL_TOKENS,
new Object[]{ extraTokens }); //"Extra illegal tokens: "+extraTokens);
}
// Terminate for safety.
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH), OpCodes.ENDOP);
m_ops.setOp(OpMap.MAPINDEX_LENGTH, m_ops.getOp(OpMap.MAPINDEX_LENGTH)+1);
m_ops.shrink();
}
/** The error listener where syntax errors are to be sent.
*/
private ErrorListener m_errorListener;
/** The source location of the XPath. */
javax.xml.transform.SourceLocator m_sourceLocator;
/** The table contains build-in functions and customized functions */
private FunctionTable m_functionTable;
/**
* Allow an application to register an error event handler, where syntax
* errors will be sent. If the error listener is not set, syntax errors
* will be sent to System.err.
*
* @param handler Reference to error listener where syntax errors will be
* sent.
*/
public void setErrorHandler(ErrorListener handler)
{
m_errorListener = handler;
}
/**
* Return the current error listener.
*
* @return The error listener, which should not normally be null, but may be.
*/
public ErrorListener getErrorListener()
{
return m_errorListener;
}
/**
* Check whether m_token matches the target string.
*
* @param s A string reference or null.
*
* @return If m_token is null, returns false (or true if s is also null), or
* return true if the current token matches the string, else false.
*/
final boolean tokenIs(String s)
{
return (m_token != null) ? (m_token.equals(s)) : (s == null);
}
/**
* Check whether m_tokenChar==c.
*
* @param c A character to be tested.
*
* @return If m_token is null, returns false, or return true if c matches
* the current token.
*/
final boolean tokenIs(char c)
{
return (m_token != null) ? (m_tokenChar == c) : false;
}
/**
* Look ahead of the current token in order to
* make a branching decision.
*
* @param c the character to be tested for.
* @param n number of tokens to look ahead. Must be
* greater than 1.
*
* @return true if the next token matches the character argument.
*/
final boolean lookahead(char c, int n)
{
int pos = (m_queueMark + n);
boolean b;
if ((pos <= m_ops.getTokenQueueSize()) && (pos > 0)
&& (m_ops.getTokenQueueSize() != 0))
{
String tok = ((String) m_ops.m_tokenQueue.elementAt(pos - 1));
b = (tok.length() == 1) ? (tok.charAt(0) == c) : false;
}
else
{
b = false;
}
return b;
}
/**
* Look behind the first character of the current token in order to
* make a branching decision.
*
* @param c the character to compare it to.
* @param n number of tokens to look behind. Must be
* greater than 1. Note that the look behind terminates
* at either the beginning of the string or on a '|'
* character. Because of this, this method should only
* be used for pattern matching.
*
* @return true if the token behind the current token matches the character
* argument.
*/
private final boolean lookbehind(char c, int n)
{
boolean isToken;
int lookBehindPos = m_queueMark - (n + 1);
if (lookBehindPos >= 0)
{
String lookbehind = (String) m_ops.m_tokenQueue.elementAt(lookBehindPos);
if (lookbehind.length() == 1)
{
char c0 = (lookbehind == null) ? '|' : lookbehind.charAt(0);
isToken = (c0 == '|') ? false : (c0 == c);
}
else
{
isToken = false;
}
}
else
{
isToken = false;
}
return isToken;
}
/**
* look behind the current token in order to
* see if there is a useable token.
*
* @param n number of tokens to look behind. Must be
* greater than 1. Note that the look behind terminates
* at either the beginning of the string or on a '|'
* character. Because of this, this method should only
* be used for pattern matching.
*
* @return true if look behind has a token, false otherwise.
*/
private final boolean lookbehindHasToken(int n)
{
boolean hasToken;
if ((m_queueMark - n) > 0)
{
String lookbehind = (String) m_ops.m_tokenQueue.elementAt(m_queueMark - (n - 1));
char c0 = (lookbehind == null) ? '|' : lookbehind.charAt(0);
hasToken = (c0 == '|') ? false : true;
}
else
{
hasToken = false;
}
return hasToken;
}
/**
* Look ahead of the current token in order to
* make a branching decision.
*
* @param s the string to compare it to.
* @param n number of tokens to lookahead. Must be
* greater than 1.
*
* @return true if the token behind the current token matches the string
* argument.
*/
private final boolean lookahead(String s, int n)
{
boolean isToken;
if ((m_queueMark + n) <= m_ops.getTokenQueueSize())
{
String lookahead = (String) m_ops.m_tokenQueue.elementAt(m_queueMark + (n - 1));
isToken = (lookahead != null) ? lookahead.equals(s) : (s == null);
}
else
{
isToken = (null == s);
}
return isToken;
}
/**
* Retrieve the next token from the command and
* store it in m_token string.
*/
private final void nextToken()
{
if (m_queueMark < m_ops.getTokenQueueSize())
{
m_token = (String) m_ops.m_tokenQueue.elementAt(m_queueMark++);
m_tokenChar = m_token.charAt(0);
}
else
{
m_token = null;
m_tokenChar = 0;
}
}
/**
* Retrieve a token relative to the current token.
*
* @param i Position relative to current token.
*
* @return The string at the given index, or null if the index is out
* of range.
*/
private final String getTokenRelative(int i)
{
String tok;
int relative = m_queueMark + i;
if ((relative > 0) && (relative < m_ops.getTokenQueueSize()))
{
tok = (String) m_ops.m_tokenQueue.elementAt(relative);
}
else
{
tok = null;
}
return tok;
}
/**
* Retrieve the previous token from the command and
* store it in m_token string.
*/
private final void prevToken()
{
if (m_queueMark > 0)
{
m_queueMark--;
m_token = (String) m_ops.m_tokenQueue.elementAt(m_queueMark);
m_tokenChar = m_token.charAt(0);
}
else
{
m_token = null;
m_tokenChar = 0;
}
}
/**
* Consume an expected token, throwing an exception if it
* isn't there.
*
* @param expected The string to be expected.
*
* @throws javax.xml.transform.TransformerException
*/
private final void consumeExpected(String expected)
throws javax.xml.transform.TransformerException
{
if (tokenIs(expected))
{
nextToken();
}
else
{
error(XPATHErrorResources.ER_EXPECTED_BUT_FOUND, new Object[]{ expected,
m_token }); //"Expected "+expected+", but found: "+m_token);
// Patch for Christina's gripe. She wants her errorHandler to return from
// this error and continue trying to parse, rather than throwing an exception.
// Without the patch, that put us into an endless loop.
throw new XPathProcessorException(CONTINUE_AFTER_FATAL_ERROR);
}
}
/**
* Consume an expected token, throwing an exception if it
* isn't there.
*
* @param expected the character to be expected.
*
* @throws javax.xml.transform.TransformerException
*/
private final void consumeExpected(char expected)
throws javax.xml.transform.TransformerException
{
if (tokenIs(expected))
{
nextToken();
}
else
{
error(XPATHErrorResources.ER_EXPECTED_BUT_FOUND,
new Object[]{ String.valueOf(expected),
m_token }); //"Expected "+expected+", but found: "+m_token);
// Patch for Christina's gripe. She wants her errorHandler to return from
// this error and continue trying to parse, rather than throwing an exception.
// Without the patch, that put us into an endless loop.
throw new XPathProcessorException(CONTINUE_AFTER_FATAL_ERROR);
}
}
/**
* Warn the user of a problem.
*
* @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.
*/
void warn(String msg, Object[] args) throws TransformerException
{
String fmsg = XSLMessages.createXPATHWarning(msg, args);
ErrorListener ehandler = this.getErrorListener();
if (null != ehandler)
{
// TO DO: Need to get stylesheet Locator from here.
ehandler.warning(new TransformerException(fmsg, m_sourceLocator));
}
else
{
// Should never happen.
System.err.println(fmsg);
}
}
/**
* Notify the user of an assertion error, and probably throw an
* exception.
*
* @param b If false, a runtime exception will be thrown.
* @param msg The assertion message, which should be informative.
*
* @throws RuntimeException if the b argument is false.
*/
private void assertion(boolean b, String msg)
{
if (!b)
{
String fMsg = XSLMessages.createXPATHMessage(
XPATHErrorResources.ER_INCORRECT_PROGRAMMER_ASSERTION,
new Object[]{ msg });
throw new RuntimeException(fMsg);
}
}
/**
* Notify 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.
*/
void error(String msg, Object[] args) throws TransformerException
{
String fmsg = XSLMessages.createXPATHMessage(msg, args);
ErrorListener ehandler = this.getErrorListener();
TransformerException te = new TransformerException(fmsg, m_sourceLocator);
if (null != ehandler)
{
// TO DO: Need to get stylesheet Locator from here.
ehandler.fatalError(te);
}
else
{
// System.err.println(fmsg);
throw te;
}
}
/**
* This method is added to support DOM 3 XPath API.
*
* This method is exactly like error(String, Object[]); except that
* the underlying TransformerException is
* XpathStylesheetDOM3Exception (which extends TransformerException).
*
* So older XPath code in Xalan is not affected by this. To older XPath code
* the behavior of whether error() or errorForDOM3() is called because it is
* always catching TransformerException objects and is oblivious to
* the new subclass of XPathStylesheetDOM3Exception. Older XPath code
* runs as before.
*
* However, newer DOM3 XPath code upon catching a TransformerException can
* can check if the exception is an instance of XPathStylesheetDOM3Exception
* and take appropriate action.
*
* @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.
*/
void errorForDOM3(String msg, Object[] args) throws TransformerException
{
String fmsg = XSLMessages.createXPATHMessage(msg, args);
ErrorListener ehandler = this.getErrorListener();
TransformerException te = new XPathStylesheetDOM3Exception(fmsg, m_sourceLocator);
if (null != ehandler)
{
// TO DO: Need to get stylesheet Locator from here.
ehandler.fatalError(te);
}
else
{
// System.err.println(fmsg);
throw te;
}
}
/**
* Dump the remaining token queue.
* Thanks to Craig for this.
*
* @return A dump of the remaining token queue, which may be appended to
* an error message.
*/
protected String dumpRemainingTokenQueue()
{
int q = m_queueMark;
String returnMsg;
if (q < m_ops.getTokenQueueSize())
{
String msg = "\n Remaining tokens: (";
while (q < m_ops.getTokenQueueSize())
{
String t = (String) m_ops.m_tokenQueue.elementAt(q++);
msg += (" '" + t + "'");
}
returnMsg = msg + ")";
}
else
{
returnMsg = "";
}
return returnMsg;
}
/**
* Given a string, return the corresponding function token.
*
* @param key A local name of a function.
*
* @return The function ID, which may correspond to one of the FUNC_XXX
* values found in {@link com.sun.org.apache.xpath.internal.compiler.FunctionTable}, but may
* be a value installed by an external module.
*/
final int getFunctionToken(String key)
{
int tok;
Object id;
try
{
// These are nodetests, xpathparser treats them as functions when parsing
// a FilterExpr.
id = Keywords.lookupNodeTest(key);
if (null == id) id = m_functionTable.getFunctionID(key);
tok = ((Integer) id).intValue();
}
catch (NullPointerException npe)
{
tok = -1;
}
catch (ClassCastException cce)
{
tok = -1;
}
return tok;
}
/**
* Insert room for operation. This will NOT set
* the length value of the operation, but will update
* the length value for the total expression.
*
* @param pos The position where the op is to be inserted.
* @param length The length of the operation space in the op map.
* @param op The op code to the inserted.
*/
void insertOp(int pos, int length, int op)
{
int totalLen = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
for (int i = totalLen - 1; i >= pos; i--)
{
m_ops.setOp(i + length, m_ops.getOp(i));
}
m_ops.setOp(pos,op);
m_ops.setOp(OpMap.MAPINDEX_LENGTH,totalLen + length);
}
/**
* Insert room for operation. This WILL set
* the length value of the operation, and will update
* the length value for the total expression.
*
* @param length The length of the operation.
* @param op The op code to the inserted.
*/
void appendOp(int length, int op)
{
int totalLen = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
m_ops.setOp(totalLen, op);
m_ops.setOp(totalLen + OpMap.MAPINDEX_LENGTH, length);
m_ops.setOp(OpMap.MAPINDEX_LENGTH, totalLen + length);
}
// ============= EXPRESSIONS FUNCTIONS =================
/**
*
*
* Expr ::= OrExpr
*
*
* @throws javax.xml.transform.TransformerException
*/
protected void Expr() throws javax.xml.transform.TransformerException
{
OrExpr();
}
/**
*
*
* OrExpr ::= AndExpr
* | OrExpr 'or' AndExpr
*
*
* @throws javax.xml.transform.TransformerException
*/
protected void OrExpr() throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
AndExpr();
if ((null != m_token) && tokenIs("or"))
{
nextToken();
insertOp(opPos, 2, OpCodes.OP_OR);
OrExpr();
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
}
}
/**
*
*
* AndExpr ::= EqualityExpr
* | AndExpr 'and' EqualityExpr
*
*
* @throws javax.xml.transform.TransformerException
*/
protected void AndExpr() throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
EqualityExpr(-1);
if ((null != m_token) && tokenIs("and"))
{
nextToken();
insertOp(opPos, 2, OpCodes.OP_AND);
AndExpr();
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
}
}
/**
*
* @returns an Object which is either a String, a Number, a Boolean, or a vector
* of nodes.
*
* EqualityExpr ::= RelationalExpr
* | EqualityExpr '=' RelationalExpr
*
*
* @param addPos Position where expression is to be added, or -1 for append.
*
* @return the position at the end of the equality expression.
*
* @throws javax.xml.transform.TransformerException
*/
protected int EqualityExpr(int addPos) throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
if (-1 == addPos)
addPos = opPos;
RelationalExpr(-1);
if (null != m_token)
{
if (tokenIs('!') && lookahead('=', 1))
{
nextToken();
nextToken();
insertOp(addPos, 2, OpCodes.OP_NOTEQUALS);
int opPlusLeftHandLen = m_ops.getOp(OpMap.MAPINDEX_LENGTH) - addPos;
addPos = EqualityExpr(addPos);
m_ops.setOp(addPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(addPos + opPlusLeftHandLen + 1) + opPlusLeftHandLen);
addPos += 2;
}
else if (tokenIs('='))
{
nextToken();
insertOp(addPos, 2, OpCodes.OP_EQUALS);
int opPlusLeftHandLen = m_ops.getOp(OpMap.MAPINDEX_LENGTH) - addPos;
addPos = EqualityExpr(addPos);
m_ops.setOp(addPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(addPos + opPlusLeftHandLen + 1) + opPlusLeftHandLen);
addPos += 2;
}
}
return addPos;
}
/**
* .
* @returns an Object which is either a String, a Number, a Boolean, or a vector
* of nodes.
*
* RelationalExpr ::= AdditiveExpr
* | RelationalExpr '<' AdditiveExpr
* | RelationalExpr '>' AdditiveExpr
* | RelationalExpr '<=' AdditiveExpr
* | RelationalExpr '>=' AdditiveExpr
*
*
* @param addPos Position where expression is to be added, or -1 for append.
*
* @return the position at the end of the relational expression.
*
* @throws javax.xml.transform.TransformerException
*/
protected int RelationalExpr(int addPos) throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
if (-1 == addPos)
addPos = opPos;
AdditiveExpr(-1);
if (null != m_token)
{
if (tokenIs('<'))
{
nextToken();
if (tokenIs('='))
{
nextToken();
insertOp(addPos, 2, OpCodes.OP_LTE);
}
else
{
insertOp(addPos, 2, OpCodes.OP_LT);
}
int opPlusLeftHandLen = m_ops.getOp(OpMap.MAPINDEX_LENGTH) - addPos;
addPos = RelationalExpr(addPos);
m_ops.setOp(addPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(addPos + opPlusLeftHandLen + 1) + opPlusLeftHandLen);
addPos += 2;
}
else if (tokenIs('>'))
{
nextToken();
if (tokenIs('='))
{
nextToken();
insertOp(addPos, 2, OpCodes.OP_GTE);
}
else
{
insertOp(addPos, 2, OpCodes.OP_GT);
}
int opPlusLeftHandLen = m_ops.getOp(OpMap.MAPINDEX_LENGTH) - addPos;
addPos = RelationalExpr(addPos);
m_ops.setOp(addPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(addPos + opPlusLeftHandLen + 1) + opPlusLeftHandLen);
addPos += 2;
}
}
return addPos;
}
/**
* This has to handle construction of the operations so that they are evaluated
* in pre-fix order. So, for 9+7-6, instead of |+|9|-|7|6|, this needs to be
* evaluated as |-|+|9|7|6|.
*
* AdditiveExpr ::= MultiplicativeExpr
* | AdditiveExpr '+' MultiplicativeExpr
* | AdditiveExpr '-' MultiplicativeExpr
*
*
* @param addPos Position where expression is to be added, or -1 for append.
*
* @return the position at the end of the equality expression.
*
* @throws javax.xml.transform.TransformerException
*/
protected int AdditiveExpr(int addPos) throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
if (-1 == addPos)
addPos = opPos;
MultiplicativeExpr(-1);
if (null != m_token)
{
if (tokenIs('+'))
{
nextToken();
insertOp(addPos, 2, OpCodes.OP_PLUS);
int opPlusLeftHandLen = m_ops.getOp(OpMap.MAPINDEX_LENGTH) - addPos;
addPos = AdditiveExpr(addPos);
m_ops.setOp(addPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(addPos + opPlusLeftHandLen + 1) + opPlusLeftHandLen);
addPos += 2;
}
else if (tokenIs('-'))
{
nextToken();
insertOp(addPos, 2, OpCodes.OP_MINUS);
int opPlusLeftHandLen = m_ops.getOp(OpMap.MAPINDEX_LENGTH) - addPos;
addPos = AdditiveExpr(addPos);
m_ops.setOp(addPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(addPos + opPlusLeftHandLen + 1) + opPlusLeftHandLen);
addPos += 2;
}
}
return addPos;
}
/**
* This has to handle construction of the operations so that they are evaluated
* in pre-fix order. So, for 9+7-6, instead of |+|9|-|7|6|, this needs to be
* evaluated as |-|+|9|7|6|.
*
* MultiplicativeExpr ::= UnaryExpr
* | MultiplicativeExpr MultiplyOperator UnaryExpr
* | MultiplicativeExpr 'div' UnaryExpr
* | MultiplicativeExpr 'mod' UnaryExpr
* | MultiplicativeExpr 'quo' UnaryExpr
*
* @param addPos Position where expression is to be added, or -1 for append.
*
* @return the position at the end of the equality expression.
*
* @throws javax.xml.transform.TransformerException
*/
protected int MultiplicativeExpr(int addPos) throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
if (-1 == addPos)
addPos = opPos;
UnaryExpr();
if (null != m_token)
{
if (tokenIs('*'))
{
nextToken();
insertOp(addPos, 2, OpCodes.OP_MULT);
int opPlusLeftHandLen = m_ops.getOp(OpMap.MAPINDEX_LENGTH) - addPos;
addPos = MultiplicativeExpr(addPos);
m_ops.setOp(addPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(addPos + opPlusLeftHandLen + 1) + opPlusLeftHandLen);
addPos += 2;
}
else if (tokenIs("div"))
{
nextToken();
insertOp(addPos, 2, OpCodes.OP_DIV);
int opPlusLeftHandLen = m_ops.getOp(OpMap.MAPINDEX_LENGTH) - addPos;
addPos = MultiplicativeExpr(addPos);
m_ops.setOp(addPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(addPos + opPlusLeftHandLen + 1) + opPlusLeftHandLen);
addPos += 2;
}
else if (tokenIs("mod"))
{
nextToken();
insertOp(addPos, 2, OpCodes.OP_MOD);
int opPlusLeftHandLen = m_ops.getOp(OpMap.MAPINDEX_LENGTH) - addPos;
addPos = MultiplicativeExpr(addPos);
m_ops.setOp(addPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(addPos + opPlusLeftHandLen + 1) + opPlusLeftHandLen);
addPos += 2;
}
else if (tokenIs("quo"))
{
nextToken();
insertOp(addPos, 2, OpCodes.OP_QUO);
int opPlusLeftHandLen = m_ops.getOp(OpMap.MAPINDEX_LENGTH) - addPos;
addPos = MultiplicativeExpr(addPos);
m_ops.setOp(addPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(addPos + opPlusLeftHandLen + 1) + opPlusLeftHandLen);
addPos += 2;
}
}
return addPos;
}
/**
*
* UnaryExpr ::= UnionExpr
* | '-' UnaryExpr
*
*
* @throws javax.xml.transform.TransformerException
*/
protected void UnaryExpr() throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
boolean isNeg = false;
if (m_tokenChar == '-')
{
nextToken();
appendOp(2, OpCodes.OP_NEG);
isNeg = true;
}
UnionExpr();
if (isNeg)
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
}
/**
*
* StringExpr ::= Expr
*
*
* @throws javax.xml.transform.TransformerException
*/
protected void StringExpr() throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
appendOp(2, OpCodes.OP_STRING);
Expr();
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
}
/**
*
*
* StringExpr ::= Expr
*
*
* @throws javax.xml.transform.TransformerException
*/
protected void BooleanExpr() throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
appendOp(2, OpCodes.OP_BOOL);
Expr();
int opLen = m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos;
if (opLen == 2)
{
error(XPATHErrorResources.ER_BOOLEAN_ARG_NO_LONGER_OPTIONAL, null); //"boolean(...) argument is no longer optional with 19990709 XPath draft.");
}
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH, opLen);
}
/**
*
*
* NumberExpr ::= Expr
*
*
* @throws javax.xml.transform.TransformerException
*/
protected void NumberExpr() throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
appendOp(2, OpCodes.OP_NUMBER);
Expr();
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
}
/**
* The context of the right hand side expressions is the context of the
* left hand side expression. The results of the right hand side expressions
* are node sets. The result of the left hand side UnionExpr is the union
* of the results of the right hand side expressions.
*
*
* UnionExpr ::= PathExpr
* | UnionExpr '|' PathExpr
*
*
* @throws javax.xml.transform.TransformerException
*/
protected void UnionExpr() throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
boolean continueOrLoop = true;
boolean foundUnion = false;
do
{
PathExpr();
if (tokenIs('|'))
{
if (false == foundUnion)
{
foundUnion = true;
insertOp(opPos, 2, OpCodes.OP_UNION);
}
nextToken();
}
else
{
break;
}
// this.m_testForDocOrder = true;
}
while (continueOrLoop);
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
}
/**
* PathExpr ::= LocationPath
* | FilterExpr
* | FilterExpr '/' RelativeLocationPath
* | FilterExpr '//' RelativeLocationPath
*
* @throws XSLProcessorException thrown if the active ProblemListener and XPathContext decide
* the error condition is severe enough to halt processing.
*
* @throws javax.xml.transform.TransformerException
*/
protected void PathExpr() throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
int filterExprMatch = FilterExpr();
if (filterExprMatch != FILTER_MATCH_FAILED)
{
// If FilterExpr had Predicates, a OP_LOCATIONPATH opcode would already
// have been inserted.
boolean locationPathStarted = (filterExprMatch==FILTER_MATCH_PREDICATES);
if (tokenIs('/'))
{
nextToken();
if (!locationPathStarted)
{
// int locationPathOpPos = opPos;
insertOp(opPos, 2, OpCodes.OP_LOCATIONPATH);
locationPathStarted = true;
}
if (!RelativeLocationPath())
{
// "Relative location path expected following '/' or '//'"
error(XPATHErrorResources.ER_EXPECTED_REL_LOC_PATH, null);
}
}
// Terminate for safety.
if (locationPathStarted)
{
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH), OpCodes.ENDOP);
m_ops.setOp(OpMap.MAPINDEX_LENGTH, m_ops.getOp(OpMap.MAPINDEX_LENGTH) + 1);
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
}
}
else
{
LocationPath();
}
}
/**
*
*
* FilterExpr ::= PrimaryExpr
* | FilterExpr Predicate
*
* @throws XSLProcessorException thrown if the active ProblemListener and XPathContext decide
* the error condition is severe enough to halt processing.
*
* @return FILTER_MATCH_PREDICATES, if this method successfully matched a
* FilterExpr with one or more Predicates;
* FILTER_MATCH_PRIMARY, if this method successfully matched a
* FilterExpr that was just a PrimaryExpr; or
* FILTER_MATCH_FAILED, if this method did not match a FilterExpr
*
* @throws javax.xml.transform.TransformerException
*/
protected int FilterExpr() throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
int filterMatch;
if (PrimaryExpr())
{
if (tokenIs('['))
{
// int locationPathOpPos = opPos;
insertOp(opPos, 2, OpCodes.OP_LOCATIONPATH);
while (tokenIs('['))
{
Predicate();
}
filterMatch = FILTER_MATCH_PREDICATES;
}
else
{
filterMatch = FILTER_MATCH_PRIMARY;
}
}
else
{
filterMatch = FILTER_MATCH_FAILED;
}
return filterMatch;
/*
* if(tokenIs('['))
* {
* Predicate();
* m_ops.m_opMap[opPos + OpMap.MAPINDEX_LENGTH] = m_ops.m_opMap[OpMap.MAPINDEX_LENGTH] - opPos;
* }
*/
}
/**
*
* PrimaryExpr ::= VariableReference
* | '(' Expr ')'
* | Literal
* | Number
* | FunctionCall
*
* @return true if this method successfully matched a PrimaryExpr
*
* @throws javax.xml.transform.TransformerException
*
*/
protected boolean PrimaryExpr() throws javax.xml.transform.TransformerException
{
boolean matchFound;
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
if ((m_tokenChar == '\'') || (m_tokenChar == '"'))
{
appendOp(2, OpCodes.OP_LITERAL);
Literal();
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
matchFound = true;
}
else if (m_tokenChar == '$')
{
nextToken(); // consume '$'
appendOp(2, OpCodes.OP_VARIABLE);
QName();
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
matchFound = true;
}
else if (m_tokenChar == '(')
{
nextToken();
appendOp(2, OpCodes.OP_GROUP);
Expr();
consumeExpected(')');
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
matchFound = true;
}
else if ((null != m_token) && ((('.' == m_tokenChar) && (m_token.length() > 1) && Character.isDigit(
m_token.charAt(1))) || Character.isDigit(m_tokenChar)))
{
appendOp(2, OpCodes.OP_NUMBERLIT);
Number();
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
matchFound = true;
}
else if (lookahead('(', 1) || (lookahead(':', 1) && lookahead('(', 3)))
{
matchFound = FunctionCall();
}
else
{
matchFound = false;
}
return matchFound;
}
/**
*
* Argument ::= Expr
*
*
* @throws javax.xml.transform.TransformerException
*/
protected void Argument() throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
appendOp(2, OpCodes.OP_ARGUMENT);
Expr();
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
}
/**
*
* FunctionCall ::= FunctionName '(' ( Argument ( ',' Argument)*)? ')'
*
* @return true if, and only if, a FunctionCall was matched
*
* @throws javax.xml.transform.TransformerException
*/
protected boolean FunctionCall() throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
if (lookahead(':', 1))
{
appendOp(4, OpCodes.OP_EXTFUNCTION);
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH + 1, m_queueMark - 1);
nextToken();
consumeExpected(':');
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH + 2, m_queueMark - 1);
nextToken();
}
else
{
int funcTok = getFunctionToken(m_token);
if (-1 == funcTok)
{
error(XPATHErrorResources.ER_COULDNOT_FIND_FUNCTION,
new Object[]{ m_token }); //"Could not find function: "+m_token+"()");
}
switch (funcTok)
{
case OpCodes.NODETYPE_PI :
case OpCodes.NODETYPE_COMMENT :
case OpCodes.NODETYPE_TEXT :
case OpCodes.NODETYPE_NODE :
// Node type tests look like function calls, but they're not
return false;
default :
appendOp(3, OpCodes.OP_FUNCTION);
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH + 1, funcTok);
}
nextToken();
}
consumeExpected('(');
while (!tokenIs(')') && m_token != null)
{
if (tokenIs(','))
{
error(XPATHErrorResources.ER_FOUND_COMMA_BUT_NO_PRECEDING_ARG, null); //"Found ',' but no preceding argument!");
}
Argument();
if (!tokenIs(')'))
{
consumeExpected(',');
if (tokenIs(')'))
{
error(XPATHErrorResources.ER_FOUND_COMMA_BUT_NO_FOLLOWING_ARG,
null); //"Found ',' but no following argument!");
}
}
}
consumeExpected(')');
// Terminate for safety.
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH), OpCodes.ENDOP);
m_ops.setOp(OpMap.MAPINDEX_LENGTH,m_ops.getOp(OpMap.MAPINDEX_LENGTH) + 1);
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
return true;
}
// ============= GRAMMAR FUNCTIONS =================
/**
*
* LocationPath ::= RelativeLocationPath
* | AbsoluteLocationPath
*
*
* @throws javax.xml.transform.TransformerException
*/
protected void LocationPath() throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
// int locationPathOpPos = opPos;
appendOp(2, OpCodes.OP_LOCATIONPATH);
boolean seenSlash = tokenIs('/');
if (seenSlash)
{
appendOp(4, OpCodes.FROM_ROOT);
// Tell how long the step is without the predicate
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH) - 2, 4);
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH) - 1, OpCodes.NODETYPE_ROOT);
nextToken();
} else if (m_token == null) {
error(XPATHErrorResources.ER_EXPECTED_LOC_PATH_AT_END_EXPR, null);
}
if (m_token != null)
{
if (!RelativeLocationPath() && !seenSlash)
{
// Neither a '/' nor a RelativeLocationPath - i.e., matched nothing
// "Location path expected, but found "+m_token+" was encountered."
error(XPATHErrorResources.ER_EXPECTED_LOC_PATH,
new Object [] {m_token});
}
}
// Terminate for safety.
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH), OpCodes.ENDOP);
m_ops.setOp(OpMap.MAPINDEX_LENGTH,m_ops.getOp(OpMap.MAPINDEX_LENGTH) + 1);
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
}
/**
*
* RelativeLocationPath ::= Step
* | RelativeLocationPath '/' Step
* | AbbreviatedRelativeLocationPath
*
* @returns true if, and only if, a RelativeLocationPath was matched
*
* @throws javax.xml.transform.TransformerException
*/
protected boolean RelativeLocationPath()
throws javax.xml.transform.TransformerException
{
if (!Step())
{
return false;
}
while (tokenIs('/'))
{
nextToken();
if (!Step())
{
// RelativeLocationPath can't end with a trailing '/'
// "Location step expected following '/' or '//'"
error(XPATHErrorResources.ER_EXPECTED_LOC_STEP, null);
}
}
return true;
}
/**
*
* Step ::= Basis Predicate
* | AbbreviatedStep
*
* @returns false if step was empty (or only a '/'); true, otherwise
*
* @throws javax.xml.transform.TransformerException
*/
protected boolean Step() throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
boolean doubleSlash = tokenIs('/');
// At most a single '/' before each Step is consumed by caller; if the
// first thing is a '/', that means we had '//' and the Step must not
// be empty.
if (doubleSlash)
{
nextToken();
appendOp(2, OpCodes.FROM_DESCENDANTS_OR_SELF);
// Have to fix up for patterns such as '//@foo' or '//attribute::foo',
// which translate to 'descendant-or-self::node()/attribute::foo'.
// notice I leave the '/' on the queue, so the next will be processed
// by a regular step pattern.
// Make room for telling how long the step is without the predicate
m_ops.setOp(OpMap.MAPINDEX_LENGTH,m_ops.getOp(OpMap.MAPINDEX_LENGTH) + 1);
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH), OpCodes.NODETYPE_NODE);
m_ops.setOp(OpMap.MAPINDEX_LENGTH,m_ops.getOp(OpMap.MAPINDEX_LENGTH) + 1);
// Tell how long the step is without the predicate
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH + 1,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
// Tell how long the step is with the predicate
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
}
if (tokenIs("."))
{
nextToken();
if (tokenIs('['))
{
error(XPATHErrorResources.ER_PREDICATE_ILLEGAL_SYNTAX, null); //"'..[predicate]' or '.[predicate]' is illegal syntax. Use 'self::node()[predicate]' instead.");
}
appendOp(4, OpCodes.FROM_SELF);
// Tell how long the step is without the predicate
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH) - 2,4);
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH) - 1, OpCodes.NODETYPE_NODE);
}
else if (tokenIs(".."))
{
nextToken();
appendOp(4, OpCodes.FROM_PARENT);
// Tell how long the step is without the predicate
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH) - 2,4);
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH) - 1, OpCodes.NODETYPE_NODE);
}
// There is probably a better way to test for this
// transition... but it gets real hairy if you try
// to do it in basis().
else if (tokenIs('*') || tokenIs('@') || tokenIs('_')
|| (m_token!= null && Character.isLetter(m_token.charAt(0))))
{
Basis();
while (tokenIs('['))
{
Predicate();
}
// Tell how long the entire step is.
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
}
else
{
// No Step matched - that's an error if previous thing was a '//'
if (doubleSlash)
{
// "Location step expected following '/' or '//'"
error(XPATHErrorResources.ER_EXPECTED_LOC_STEP, null);
}
return false;
}
return true;
}
/**
*
* Basis ::= AxisName '::' NodeTest
* | AbbreviatedBasis
*
* @throws javax.xml.transform.TransformerException
*/
protected void Basis() throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
int axesType;
// The next blocks guarantee that a FROM_XXX will be added.
if (lookahead("::", 1))
{
axesType = AxisName();
nextToken();
nextToken();
}
else if (tokenIs('@'))
{
axesType = OpCodes.FROM_ATTRIBUTES;
appendOp(2, axesType);
nextToken();
}
else
{
axesType = OpCodes.FROM_CHILDREN;
appendOp(2, axesType);
}
// Make room for telling how long the step is without the predicate
m_ops.setOp(OpMap.MAPINDEX_LENGTH, m_ops.getOp(OpMap.MAPINDEX_LENGTH) + 1);
NodeTest(axesType);
// Tell how long the step is without the predicate
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH + 1,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
}
/**
*
* Basis ::= AxisName '::' NodeTest
* | AbbreviatedBasis
*
* @return FROM_XXX axes type, found in {@link com.sun.org.apache.xpath.internal.compiler.Keywords}.
*
* @throws javax.xml.transform.TransformerException
*/
protected int AxisName() throws javax.xml.transform.TransformerException
{
Object val = Keywords.getAxisName(m_token);
if (null == val)
{
error(XPATHErrorResources.ER_ILLEGAL_AXIS_NAME,
new Object[]{ m_token }); //"illegal axis name: "+m_token);
}
int axesType = ((Integer) val).intValue();
appendOp(2, axesType);
return axesType;
}
/**
*
* NodeTest ::= WildcardName
* | NodeType '(' ')'
* | 'processing-instruction' '(' Literal ')'
*
* @param axesType FROM_XXX axes type, found in {@link com.sun.org.apache.xpath.internal.compiler.Keywords}.
*
* @throws javax.xml.transform.TransformerException
*/
protected void NodeTest(int axesType) throws javax.xml.transform.TransformerException
{
if (lookahead('(', 1))
{
Object nodeTestOp = Keywords.getNodeType(m_token);
if (null == nodeTestOp)
{
error(XPATHErrorResources.ER_UNKNOWN_NODETYPE,
new Object[]{ m_token }); //"Unknown nodetype: "+m_token);
}
else
{
nextToken();
int nt = ((Integer) nodeTestOp).intValue();
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH), nt);
m_ops.setOp(OpMap.MAPINDEX_LENGTH, m_ops.getOp(OpMap.MAPINDEX_LENGTH) + 1);
consumeExpected('(');
if (OpCodes.NODETYPE_PI == nt)
{
if (!tokenIs(')'))
{
Literal();
}
}
consumeExpected(')');
}
}
else
{
// Assume name of attribute or element.
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH), OpCodes.NODENAME);
m_ops.setOp(OpMap.MAPINDEX_LENGTH, m_ops.getOp(OpMap.MAPINDEX_LENGTH) + 1);
if (lookahead(':', 1))
{
if (tokenIs('*'))
{
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH), OpCodes.ELEMWILDCARD);
}
else
{
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH), m_queueMark - 1);
// Minimalist check for an NCName - just check first character
// to distinguish from other possible tokens
if (!Character.isLetter(m_tokenChar) && !tokenIs('_'))
{
// "Node test that matches either NCName:* or QName was expected."
error(XPATHErrorResources.ER_EXPECTED_NODE_TEST, null);
}
}
nextToken();
consumeExpected(':');
}
else
{
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH), OpCodes.EMPTY);
}
m_ops.setOp(OpMap.MAPINDEX_LENGTH, m_ops.getOp(OpMap.MAPINDEX_LENGTH) + 1);
if (tokenIs('*'))
{
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH), OpCodes.ELEMWILDCARD);
}
else
{
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH), m_queueMark - 1);
// Minimalist check for an NCName - just check first character
// to distinguish from other possible tokens
if (!Character.isLetter(m_tokenChar) && !tokenIs('_'))
{
// "Node test that matches either NCName:* or QName was expected."
error(XPATHErrorResources.ER_EXPECTED_NODE_TEST, null);
}
}
m_ops.setOp(OpMap.MAPINDEX_LENGTH, m_ops.getOp(OpMap.MAPINDEX_LENGTH) + 1);
nextToken();
}
}
/**
*
* Predicate ::= '[' PredicateExpr ']'
*
*
* @throws javax.xml.transform.TransformerException
*/
protected void Predicate() throws javax.xml.transform.TransformerException
{
if (tokenIs('['))
{
nextToken();
PredicateExpr();
consumeExpected(']');
}
}
/**
*
* PredicateExpr ::= Expr
*
*
* @throws javax.xml.transform.TransformerException
*/
protected void PredicateExpr() throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
appendOp(2, OpCodes.OP_PREDICATE);
Expr();
// Terminate for safety.
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH), OpCodes.ENDOP);
m_ops.setOp(OpMap.MAPINDEX_LENGTH, m_ops.getOp(OpMap.MAPINDEX_LENGTH) + 1);
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
}
/**
* QName ::= (Prefix ':')? LocalPart
* Prefix ::= NCName
* LocalPart ::= NCName
*
* @throws javax.xml.transform.TransformerException
*/
protected void QName() throws javax.xml.transform.TransformerException
{
// Namespace
if(lookahead(':', 1))
{
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH), m_queueMark - 1);
m_ops.setOp(OpMap.MAPINDEX_LENGTH, m_ops.getOp(OpMap.MAPINDEX_LENGTH) + 1);
nextToken();
consumeExpected(':');
}
else
{
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH), OpCodes.EMPTY);
m_ops.setOp(OpMap.MAPINDEX_LENGTH, m_ops.getOp(OpMap.MAPINDEX_LENGTH) + 1);
}
// Local name
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH), m_queueMark - 1);
m_ops.setOp(OpMap.MAPINDEX_LENGTH, m_ops.getOp(OpMap.MAPINDEX_LENGTH) + 1);
nextToken();
}
/**
* NCName ::= (Letter | '_') (NCNameChar)
* NCNameChar ::= Letter | Digit | '.' | '-' | '_' | CombiningChar | Extender
*/
protected void NCName()
{
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH), m_queueMark - 1);
m_ops.setOp(OpMap.MAPINDEX_LENGTH, m_ops.getOp(OpMap.MAPINDEX_LENGTH) + 1);
nextToken();
}
/**
* The value of the Literal is the sequence of characters inside
* the " or ' characters>.
*
* Literal ::= '"' [^"]* '"'
* | "'" [^']* "'"
*
*
* @throws javax.xml.transform.TransformerException
*/
protected void Literal() throws javax.xml.transform.TransformerException
{
int last = m_token.length() - 1;
char c0 = m_tokenChar;
char cX = m_token.charAt(last);
if (((c0 == '\"') && (cX == '\"')) || ((c0 == '\'') && (cX == '\'')))
{
// Mutate the token to remove the quotes and have the XString object
// already made.
int tokenQueuePos = m_queueMark - 1;
m_ops.m_tokenQueue.setElementAt(null,tokenQueuePos);
Object obj = new XString(m_token.substring(1, last));
m_ops.m_tokenQueue.setElementAt(obj,tokenQueuePos);
// lit = m_token.substring(1, last);
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH), tokenQueuePos);
m_ops.setOp(OpMap.MAPINDEX_LENGTH, m_ops.getOp(OpMap.MAPINDEX_LENGTH) + 1);
nextToken();
}
else
{
error(XPATHErrorResources.ER_PATTERN_LITERAL_NEEDS_BE_QUOTED,
new Object[]{ m_token }); //"Pattern literal ("+m_token+") needs to be quoted!");
}
}
/**
*
* Number ::= [0-9]+('.'[0-9]+)? | '.'[0-9]+
*
*
* @throws javax.xml.transform.TransformerException
*/
protected void Number() throws javax.xml.transform.TransformerException
{
if (null != m_token)
{
// Mutate the token to remove the quotes and have the XNumber object
// already made.
double num;
try
{
// XPath 1.0 does not support number in exp notation
if ((m_token.indexOf('e') > -1)||(m_token.indexOf('E') > -1))
throw new NumberFormatException();
num = Double.valueOf(m_token).doubleValue();
}
catch (NumberFormatException nfe)
{
num = 0.0; // to shut up compiler.
error(XPATHErrorResources.ER_COULDNOT_BE_FORMATTED_TO_NUMBER,
new Object[]{ m_token }); //m_token+" could not be formatted to a number!");
}
m_ops.m_tokenQueue.setElementAt(new XNumber(num),m_queueMark - 1);
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH), m_queueMark - 1);
m_ops.setOp(OpMap.MAPINDEX_LENGTH, m_ops.getOp(OpMap.MAPINDEX_LENGTH) + 1);
nextToken();
}
}
// ============= PATTERN FUNCTIONS =================
/**
*
* Pattern ::= LocationPathPattern
* | Pattern '|' LocationPathPattern
*
*
* @throws javax.xml.transform.TransformerException
*/
protected void Pattern() throws javax.xml.transform.TransformerException
{
while (true)
{
LocationPathPattern();
if (tokenIs('|'))
{
nextToken();
}
else
{
break;
}
}
}
/**
*
*
* LocationPathPattern ::= '/' RelativePathPattern?
* | IdKeyPattern (('/' | '//') RelativePathPattern)?
* | '//'? RelativePathPattern
*
*
* @throws javax.xml.transform.TransformerException
*/
protected void LocationPathPattern() throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
final int RELATIVE_PATH_NOT_PERMITTED = 0;
final int RELATIVE_PATH_PERMITTED = 1;
final int RELATIVE_PATH_REQUIRED = 2;
int relativePathStatus = RELATIVE_PATH_NOT_PERMITTED;
appendOp(2, OpCodes.OP_LOCATIONPATHPATTERN);
if (lookahead('(', 1)
&& (tokenIs(Keywords.FUNC_ID_STRING)
|| tokenIs(Keywords.FUNC_KEY_STRING)))
{
IdKeyPattern();
if (tokenIs('/'))
{
nextToken();
if (tokenIs('/'))
{
appendOp(4, OpCodes.MATCH_ANY_ANCESTOR);
nextToken();
}
else
{
appendOp(4, OpCodes.MATCH_IMMEDIATE_ANCESTOR);
}
// Tell how long the step is without the predicate
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH) - 2, 4);
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH) - 1, OpCodes.NODETYPE_FUNCTEST);
relativePathStatus = RELATIVE_PATH_REQUIRED;
}
}
else if (tokenIs('/'))
{
if (lookahead('/', 1))
{
appendOp(4, OpCodes.MATCH_ANY_ANCESTOR);
// Added this to fix bug reported by Myriam for match="//x/a"
// patterns. If you don't do this, the 'x' step will think it's part
// of a '//' pattern, and so will cause 'a' to be matched when it has
// any ancestor that is 'x'.
nextToken();
relativePathStatus = RELATIVE_PATH_REQUIRED;
}
else
{
appendOp(4, OpCodes.FROM_ROOT);
relativePathStatus = RELATIVE_PATH_PERMITTED;
}
// Tell how long the step is without the predicate
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH) - 2, 4);
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH) - 1, OpCodes.NODETYPE_ROOT);
nextToken();
}
else
{
relativePathStatus = RELATIVE_PATH_REQUIRED;
}
if (relativePathStatus != RELATIVE_PATH_NOT_PERMITTED)
{
if (!tokenIs('|') && (null != m_token))
{
RelativePathPattern();
}
else if (relativePathStatus == RELATIVE_PATH_REQUIRED)
{
// "A relative path pattern was expected."
error(XPATHErrorResources.ER_EXPECTED_REL_PATH_PATTERN, null);
}
}
// Terminate for safety.
m_ops.setOp(m_ops.getOp(OpMap.MAPINDEX_LENGTH), OpCodes.ENDOP);
m_ops.setOp(OpMap.MAPINDEX_LENGTH, m_ops.getOp(OpMap.MAPINDEX_LENGTH) + 1);
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
}
/**
*
* IdKeyPattern ::= 'id' '(' Literal ')'
* | 'key' '(' Literal ',' Literal ')'
* (Also handle doc())
*
*
* @throws javax.xml.transform.TransformerException
*/
protected void IdKeyPattern() throws javax.xml.transform.TransformerException
{
FunctionCall();
}
/**
*
* RelativePathPattern ::= StepPattern
* | RelativePathPattern '/' StepPattern
* | RelativePathPattern '//' StepPattern
*
* @throws javax.xml.transform.TransformerException
*/
protected void RelativePathPattern()
throws javax.xml.transform.TransformerException
{
// Caller will have consumed any '/' or '//' preceding the
// RelativePathPattern, so let StepPattern know it can't begin with a '/'
boolean trailingSlashConsumed = StepPattern(false);
while (tokenIs('/'))
{
nextToken();
// StepPattern() may consume first slash of pair in "a//b" while
// processing StepPattern "a". On next iteration, let StepPattern know
// that happened, so it doesn't match ill-formed patterns like "a///b".
trailingSlashConsumed = StepPattern(!trailingSlashConsumed);
}
}
/**
*
* StepPattern ::= AbbreviatedNodeTestStep
*
* @param isLeadingSlashPermitted a boolean indicating whether a slash can
* appear at the start of this step
*
* @return boolean indicating whether a slash following the step was consumed
*
* @throws javax.xml.transform.TransformerException
*/
protected boolean StepPattern(boolean isLeadingSlashPermitted)
throws javax.xml.transform.TransformerException
{
return AbbreviatedNodeTestStep(isLeadingSlashPermitted);
}
/**
*
* AbbreviatedNodeTestStep ::= '@'? NodeTest Predicate
*
* @param isLeadingSlashPermitted a boolean indicating whether a slash can
* appear at the start of this step
*
* @return boolean indicating whether a slash following the step was consumed
*
* @throws javax.xml.transform.TransformerException
*/
protected boolean AbbreviatedNodeTestStep(boolean isLeadingSlashPermitted)
throws javax.xml.transform.TransformerException
{
int opPos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
int axesType;
// The next blocks guarantee that a MATCH_XXX will be added.
int matchTypePos = -1;
if (tokenIs('@'))
{
axesType = OpCodes.MATCH_ATTRIBUTE;
appendOp(2, axesType);
nextToken();
}
else if (this.lookahead("::", 1))
{
if (tokenIs("attribute"))
{
axesType = OpCodes.MATCH_ATTRIBUTE;
appendOp(2, axesType);
}
else if (tokenIs("child"))
{
matchTypePos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
axesType = OpCodes.MATCH_IMMEDIATE_ANCESTOR;
appendOp(2, axesType);
}
else
{
axesType = -1;
this.error(XPATHErrorResources.ER_AXES_NOT_ALLOWED,
new Object[]{ this.m_token });
}
nextToken();
nextToken();
}
else if (tokenIs('/'))
{
if (!isLeadingSlashPermitted)
{
// "A step was expected in the pattern, but '/' was encountered."
error(XPATHErrorResources.ER_EXPECTED_STEP_PATTERN, null);
}
axesType = OpCodes.MATCH_ANY_ANCESTOR;
appendOp(2, axesType);
nextToken();
}
else
{
matchTypePos = m_ops.getOp(OpMap.MAPINDEX_LENGTH);
axesType = OpCodes.MATCH_IMMEDIATE_ANCESTOR;
appendOp(2, axesType);
}
// Make room for telling how long the step is without the predicate
m_ops.setOp(OpMap.MAPINDEX_LENGTH, m_ops.getOp(OpMap.MAPINDEX_LENGTH) + 1);
NodeTest(axesType);
// Tell how long the step is without the predicate
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH + 1,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
while (tokenIs('['))
{
Predicate();
}
boolean trailingSlashConsumed;
// For "a//b", where "a" is current step, we need to mark operation of
// current step as "MATCH_ANY_ANCESTOR". Then we'll consume the first
// slash and subsequent step will be treated as a MATCH_IMMEDIATE_ANCESTOR
// (unless it too is followed by '//'.)
//
// %REVIEW% Following is what happens today, but I'm not sure that's
// %REVIEW% correct behaviour. Perhaps no valid case could be constructed
// %REVIEW% where it would matter?
//
// If current step is on the attribute axis (e.g., "@x//b"), we won't
// change the current step, and let following step be marked as
// MATCH_ANY_ANCESTOR on next call instead.
if ((matchTypePos > -1) && tokenIs('/') && lookahead('/', 1))
{
m_ops.setOp(matchTypePos, OpCodes.MATCH_ANY_ANCESTOR);
nextToken();
trailingSlashConsumed = true;
}
else
{
trailingSlashConsumed = false;
}
// Tell how long the entire step is.
m_ops.setOp(opPos + OpMap.MAPINDEX_LENGTH,
m_ops.getOp(OpMap.MAPINDEX_LENGTH) - opPos);
return trailingSlashConsumed;
}
}