/*
 * 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.xml.internal.utils.PrefixResolver;
import com.sun.org.apache.xpath.internal.res.XPATHErrorResources;
import java.util.List;

This class is in charge of lexical processing of the XPath expression into tokens.
@LastModified: Nov 2017
/** * This class is in charge of lexical processing of the XPath * expression into tokens. * * @LastModified: Nov 2017 */
class Lexer {
The target XPath.
/** * The target XPath. */
private Compiler m_compiler;
The prefix resolver to map prefixes to namespaces in the XPath.
/** * The prefix resolver to map prefixes to namespaces in the XPath. */
PrefixResolver m_namespaceContext;
The XPath processor object.
/** * The XPath processor object. */
XPathParser m_processor;
This value is added to each element name in the TARGETEXTRA that is a 'target' (right-most top-level element name).
/** * This value is added to each element name in the TARGETEXTRA * that is a 'target' (right-most top-level element name). */
static final int TARGETEXTRA = 10000;
Ignore this, it is going away. This holds a map to the m_tokenQueue that tells where the top-level elements are. It is used for pattern matching so the m_tokenQueue can be walked backwards. Each element that is a 'target', (right-most top level element name) has TARGETEXTRA added to it.
/** * Ignore this, it is going away. * This holds a map to the m_tokenQueue that tells where the top-level elements are. * It is used for pattern matching so the m_tokenQueue can be walked backwards. * Each element that is a 'target', (right-most top level element name) has * TARGETEXTRA added to it. * */
private int m_patternMap[] = new int[100];
Ignore this, it is going away. The number of elements that m_patternMap maps;
/** * Ignore this, it is going away. * The number of elements that m_patternMap maps; */
private int m_patternMapSize;
Create a Lexer object.
Params:
  • compiler – The owning compiler for this lexer.
  • resolver – The prefix resolver for mapping qualified name prefixes to namespace URIs.
  • xpathProcessor – The parser that is processing strings to opcodes.
/** * Create a Lexer object. * * @param compiler The owning compiler for this lexer. * @param resolver The prefix resolver for mapping qualified name prefixes * to namespace URIs. * @param xpathProcessor The parser that is processing strings to opcodes. */
Lexer(Compiler compiler, PrefixResolver resolver, XPathParser xpathProcessor) { m_compiler = compiler; m_namespaceContext = resolver; m_processor = xpathProcessor; }
Walk through the expression and build a token queue, and a map of the top-level elements.
Params:
  • pat – XSLT Expression.
Throws:
/** * Walk through the expression and build a token queue, and a map of the top-level * elements. * @param pat XSLT Expression. * * @throws javax.xml.transform.TransformerException */
void tokenize(String pat) throws javax.xml.transform.TransformerException { tokenize(pat, null); }
Walk through the expression and build a token queue, and a map of the top-level elements.
Params:
  • pat – XSLT Expression.
  • targetStrings – a list to hold Strings, may be null.
Throws:
/** * Walk through the expression and build a token queue, and a map of the top-level * elements. * @param pat XSLT Expression. * @param targetStrings a list to hold Strings, may be null. * * @throws javax.xml.transform.TransformerException */
@SuppressWarnings("fallthrough") // on purpose at case '-', '(' and default void tokenize(String pat, List<String> targetStrings) throws javax.xml.transform.TransformerException { m_compiler.m_currentPattern = pat; m_patternMapSize = 0; // This needs to grow too. m_compiler.m_opMap = new OpMapVector(OpMap.MAXTOKENQUEUESIZE * 5, OpMap.BLOCKTOKENQUEUESIZE * 5, OpMap.MAPINDEX_LENGTH); int nChars = pat.length(); int startSubstring = -1; int posOfNSSep = -1; boolean isStartOfPat = true; boolean isAttrName = false; boolean isNum = false; // Nesting of '[' so we can know if the given element should be // counted inside the m_patternMap. int nesting = 0; // char[] chars = pat.toCharArray(); for (int i = 0; i < nChars; i++) { char c = pat.charAt(i); switch (c) { case '\"' : { if (startSubstring != -1) { isNum = false; isStartOfPat = mapPatternElemPos(nesting, isStartOfPat, isAttrName); isAttrName = false; if (-1 != posOfNSSep) { posOfNSSep = mapNSTokens(pat, startSubstring, posOfNSSep, i); } else { addToTokenQueue(pat.substring(startSubstring, i)); } } startSubstring = i; for (i++; (i < nChars) && ((c = pat.charAt(i)) != '\"'); i++); if (c == '\"' && i < nChars) { addToTokenQueue(pat.substring(startSubstring, i + 1)); startSubstring = -1; } else { m_processor.error(XPATHErrorResources.ER_EXPECTED_DOUBLE_QUOTE, null); //"misquoted literal... expected double quote!"); } } break; case '\'' : if (startSubstring != -1) { isNum = false; isStartOfPat = mapPatternElemPos(nesting, isStartOfPat, isAttrName); isAttrName = false; if (-1 != posOfNSSep) { posOfNSSep = mapNSTokens(pat, startSubstring, posOfNSSep, i); } else { addToTokenQueue(pat.substring(startSubstring, i)); } } startSubstring = i; for (i++; (i < nChars) && ((c = pat.charAt(i)) != '\''); i++); if (c == '\'' && i < nChars) { addToTokenQueue(pat.substring(startSubstring, i + 1)); startSubstring = -1; } else { m_processor.error(XPATHErrorResources.ER_EXPECTED_SINGLE_QUOTE, null); //"misquoted literal... expected single quote!"); } break; case 0x0A : case 0x0D : case ' ' : case '\t' : if (startSubstring != -1) { isNum = false; isStartOfPat = mapPatternElemPos(nesting, isStartOfPat, isAttrName); isAttrName = false; if (-1 != posOfNSSep) { posOfNSSep = mapNSTokens(pat, startSubstring, posOfNSSep, i); } else { addToTokenQueue(pat.substring(startSubstring, i)); } startSubstring = -1; } break; case '@' : isAttrName = true; // fall-through on purpose case '-' : if ('-' == c) { if (!(isNum || (startSubstring == -1))) { break; } isNum = false; } // fall-through on purpose case '(' : case '[' : case ')' : case ']' : case '|' : case '/' : case '*' : case '+' : case '=' : case ',' : case '\\' : // Unused at the moment case '^' : // Unused at the moment case '!' : // Unused at the moment case '$' : case '<' : case '>' : if (startSubstring != -1) { isNum = false; isStartOfPat = mapPatternElemPos(nesting, isStartOfPat, isAttrName); isAttrName = false; if (-1 != posOfNSSep) { posOfNSSep = mapNSTokens(pat, startSubstring, posOfNSSep, i); } else { addToTokenQueue(pat.substring(startSubstring, i)); } startSubstring = -1; } else if (('/' == c) && isStartOfPat) { isStartOfPat = mapPatternElemPos(nesting, isStartOfPat, isAttrName); } else if ('*' == c) { isStartOfPat = mapPatternElemPos(nesting, isStartOfPat, isAttrName); isAttrName = false; } if (0 == nesting) { if ('|' == c) { if (null != targetStrings) { recordTokenString(targetStrings); } isStartOfPat = true; } } if ((')' == c) || (']' == c)) { nesting--; } else if (('(' == c) || ('[' == c)) { nesting++; } addToTokenQueue(pat.substring(i, i + 1)); break; case ':' : if (i>0) { if (posOfNSSep == (i - 1)) { if (startSubstring != -1) { if (startSubstring < (i - 1)) addToTokenQueue(pat.substring(startSubstring, i - 1)); } isNum = false; isAttrName = false; startSubstring = -1; posOfNSSep = -1; addToTokenQueue(pat.substring(i - 1, i + 1)); break; } else { posOfNSSep = i; } } // fall through on purpose default : if (-1 == startSubstring) { startSubstring = i; isNum = Character.isDigit(c); } else if (isNum) { isNum = Character.isDigit(c); } } } if (startSubstring != -1) { isNum = false; isStartOfPat = mapPatternElemPos(nesting, isStartOfPat, isAttrName); if ((-1 != posOfNSSep) || ((m_namespaceContext != null) && (m_namespaceContext.handlesNullPrefixes()))) { posOfNSSep = mapNSTokens(pat, startSubstring, posOfNSSep, nChars); } else { addToTokenQueue(pat.substring(startSubstring, nChars)); } } if (0 == m_compiler.getTokenQueueSize()) { m_processor.error(XPATHErrorResources.ER_EMPTY_EXPRESSION, null); //"Empty expression!"); } else if (null != targetStrings) { recordTokenString(targetStrings); } m_processor.m_queueMark = 0; }
Record the current position on the token queue as long as this is a top-level element. Must be called before the next token is added to the m_tokenQueue.
Params:
  • nesting – The nesting count for the pattern element.
  • isStart – true if this is the start of a pattern.
  • isAttrName – true if we have determined that this is an attribute name.
Returns:true if this is the start of a pattern.
/** * Record the current position on the token queue as long as * this is a top-level element. Must be called before the * next token is added to the m_tokenQueue. * * @param nesting The nesting count for the pattern element. * @param isStart true if this is the start of a pattern. * @param isAttrName true if we have determined that this is an attribute name. * * @return true if this is the start of a pattern. */
private boolean mapPatternElemPos(int nesting, boolean isStart, boolean isAttrName) { if (0 == nesting) { if(m_patternMapSize >= m_patternMap.length) { int patternMap[] = m_patternMap; int len = m_patternMap.length; m_patternMap = new int[m_patternMapSize + 100]; System.arraycopy(patternMap, 0, m_patternMap, 0, len); } if (!isStart) { m_patternMap[m_patternMapSize - 1] -= TARGETEXTRA; } m_patternMap[m_patternMapSize] = (m_compiler.getTokenQueueSize() - (isAttrName ? 1 : 0)) + TARGETEXTRA; m_patternMapSize++; isStart = false; } return isStart; }
Given a map pos, return the corresponding token queue pos.
Params:
  • i – The index in the m_patternMap.
Returns:the token queue position.
/** * Given a map pos, return the corresponding token queue pos. * * @param i The index in the m_patternMap. * * @return the token queue position. */
private int getTokenQueuePosFromMap(int i) { int pos = m_patternMap[i]; return (pos >= TARGETEXTRA) ? (pos - TARGETEXTRA) : pos; }
Reset token queue mark and m_token to a given position.
Params:
  • mark – The new position.
/** * Reset token queue mark and m_token to a * given position. * @param mark The new position. */
private final void resetTokenMark(int mark) { int qsz = m_compiler.getTokenQueueSize(); m_processor.m_queueMark = (mark > 0) ? ((mark <= qsz) ? mark - 1 : mark) : 0; if (m_processor.m_queueMark < qsz) { m_processor.m_token = (String) m_compiler.getTokenQueue().elementAt(m_processor.m_queueMark++); m_processor.m_tokenChar = m_processor.m_token.charAt(0); } else { m_processor.m_token = null; m_processor.m_tokenChar = 0; } }
Given a string, return the corresponding keyword token.
Params:
  • key – The keyword.
Returns:An opcode value.
/** * Given a string, return the corresponding keyword token. * * @param key The keyword. * * @return An opcode value. */
final int getKeywordToken(String key) { int tok; try { Integer itok = Keywords.getKeyWord(key); tok = (null != itok) ? itok.intValue() : 0; } catch (NullPointerException npe) { tok = 0; } catch (ClassCastException cce) { tok = 0; } return tok; }
Record the current token in the passed vector.
Params:
  • targetStrings – a list of strings.
/** * Record the current token in the passed vector. * * @param targetStrings a list of strings. */
private void recordTokenString(List<String> targetStrings) { int tokPos = getTokenQueuePosFromMap(m_patternMapSize - 1); resetTokenMark(tokPos + 1); if (m_processor.lookahead('(', 1)) { int tok = getKeywordToken(m_processor.m_token); switch (tok) { case OpCodes.NODETYPE_COMMENT : targetStrings.add(PsuedoNames.PSEUDONAME_COMMENT); break; case OpCodes.NODETYPE_TEXT : targetStrings.add(PsuedoNames.PSEUDONAME_TEXT); break; case OpCodes.NODETYPE_NODE : targetStrings.add(PsuedoNames.PSEUDONAME_ANY); break; case OpCodes.NODETYPE_ROOT : targetStrings.add(PsuedoNames.PSEUDONAME_ROOT); break; case OpCodes.NODETYPE_ANYELEMENT : targetStrings.add(PsuedoNames.PSEUDONAME_ANY); break; case OpCodes.NODETYPE_PI : targetStrings.add(PsuedoNames.PSEUDONAME_ANY); break; default : targetStrings.add(PsuedoNames.PSEUDONAME_ANY); } } else { if (m_processor.tokenIs('@')) { tokPos++; resetTokenMark(tokPos + 1); } if (m_processor.lookahead(':', 1)) { tokPos += 2; } targetStrings.add((String)m_compiler.getTokenQueue().elementAt(tokPos)); } }
Add a token to the token queue.
Params:
  • s – The token.
/** * Add a token to the token queue. * * * @param s The token. */
private final void addToTokenQueue(String s) { m_compiler.getTokenQueue().addElement(s); }
When a seperator token is found, see if there's a element name or the like to map.
Params:
  • pat – The XPath name string.
  • startSubstring – The start of the name string.
  • posOfNSSep – The position of the namespace seperator (':').
  • posOfScan – The end of the name index.
Throws:
Returns:-1 always.
/** * When a seperator token is found, see if there's a element name or * the like to map. * * @param pat The XPath name string. * @param startSubstring The start of the name string. * @param posOfNSSep The position of the namespace seperator (':'). * @param posOfScan The end of the name index. * * @throws javax.xml.transform.TransformerException * * @return -1 always. */
private int mapNSTokens(String pat, int startSubstring, int posOfNSSep, int posOfScan) throws javax.xml.transform.TransformerException { String prefix = ""; if ((startSubstring >= 0) && (posOfNSSep >= 0)) { prefix = pat.substring(startSubstring, posOfNSSep); } String uName; if ((null != m_namespaceContext) &&!prefix.equals("*") &&!prefix.equals("xmlns")) { try { if (prefix.length() > 0) uName = m_namespaceContext.getNamespaceForPrefix(prefix); else { // Assume last was wildcard. This is not legal according // to the draft. Set the below to true to make namespace // wildcards work. if (false) { addToTokenQueue(":"); String s = pat.substring(posOfNSSep + 1, posOfScan); if (s.length() > 0) addToTokenQueue(s); return -1; } else { uName = m_namespaceContext.getNamespaceForPrefix(prefix); } } } catch (ClassCastException cce) { uName = m_namespaceContext.getNamespaceForPrefix(prefix); } } else { uName = prefix; } if ((null != uName) && (uName.length() > 0)) { addToTokenQueue(uName); addToTokenQueue(":"); String s = pat.substring(posOfNSSep + 1, posOfScan); if (s.length() > 0) addToTokenQueue(s); } else { m_processor.error(XPATHErrorResources.ER_PREFIX_MUST_RESOLVE, new String[] {prefix}); //"Prefix must resolve to a namespace: {0}"; } return -1; } }