/* * reserved comment block * DO NOT REMOVE OR ALTER! */ /* * Copyright 1999-2004 The Apache Software Foundation. * * Licensed 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: CharInfo.java,v 1.2.4.1 2005/09/15 08:15:14 suresh_emailid Exp $ */ package com.sun.org.apache.xml.internal.serializer; import java.io.BufferedReader; import java.io.InputStream; import java.io.InputStreamReader; import java.io.UnsupportedEncodingException; import java.net.URL; import java.util.Enumeration; import java.util.HashMap; import java.util.PropertyResourceBundle; import java.util.ResourceBundle; import java.security.AccessController; import java.security.PrivilegedAction; import javax.xml.transform.TransformerException; import com.sun.org.apache.xml.internal.serializer.utils.MsgKey; import com.sun.org.apache.xml.internal.serializer.utils.SystemIDResolver; import com.sun.org.apache.xml.internal.serializer.utils.Utils; import com.sun.org.apache.xml.internal.serializer.utils.WrappedRuntimeException; import com.sun.org.apache.xalan.internal.utils.ObjectFactory; /** * This class provides services that tell if a character should have * special treatement, such as entity reference substitution or normalization * of a newline character. It also provides character to entity reference * lookup. * * DEVELOPERS: See Known Issue in the constructor. * * @xsl.usage internal */ final class CharInfo { /** Given a character, lookup a String to output (e.g. a decorated entity reference). */ private HashMap m_charToString = new HashMap(); /** * The name of the HTML entities file. * If specified, the file will be resource loaded with the default class loader. */ public static final String HTML_ENTITIES_RESOURCE = "com.sun.org.apache.xml.internal.serializer.HTMLEntities"; /** * The name of the XML entities file. * If specified, the file will be resource loaded with the default class loader. */ public static final String XML_ENTITIES_RESOURCE = "com.sun.org.apache.xml.internal.serializer.XMLEntities"; /** The horizontal tab character, which the parser should always normalize. */ public static final char S_HORIZONAL_TAB = 0x09; /** The linefeed character, which the parser should always normalize. */ public static final char S_LINEFEED = 0x0A; /** The carriage return character, which the parser should always normalize. */ public static final char S_CARRIAGERETURN = 0x0D; /** This flag is an optimization for HTML entities. It false if entities * other than quot (34), amp (38), lt (60) and gt (62) are defined * in the range 0 to 127. * @xsl.usage internal */ final boolean onlyQuotAmpLtGt; /** Copy the first 0,1 ... ASCII_MAX values into an array */ private static final int ASCII_MAX = 128; /** Array of values is faster access than a set of bits * to quickly check ASCII characters in attribute values. */ private boolean[] isSpecialAttrASCII = new boolean[ASCII_MAX]; /** Array of values is faster access than a set of bits * to quickly check ASCII characters in text nodes. */ private boolean[] isSpecialTextASCII = new boolean[ASCII_MAX]; private boolean[] isCleanTextASCII = new boolean[ASCII_MAX]; /** An array of bits to record if the character is in the set. * Although information in this array is complete, the * isSpecialAttrASCII array is used first because access to its values * is common and faster. */ private int array_of_bits[] = createEmptySetOfIntegers(65535); // 5 for 32 bit words, 6 for 64 bit words ... /* * This constant is used to shift an integer to quickly * calculate which element its bit is stored in. * 5 for 32 bit words (int) , 6 for 64 bit words (long) */ private static final int SHIFT_PER_WORD = 5; /* * A mask to get the low order bits which are used to * calculate the value of the bit within a given word, * that will represent the presence of the integer in the * set. * * 0x1F for 32 bit words (int), * or 0x3F for 64 bit words (long) */ private static final int LOW_ORDER_BITMASK = 0x1f; /* * This is used for optimizing the lookup of bits representing * the integers in the set. It is the index of the first element * in the array array_of_bits[] that is not used. */ private int firstWordNotUsed; /** * Constructor that reads in a resource file that describes the mapping of * characters to entity references. * This constructor is private, just to force the use * of the getCharInfo(entitiesResource) factory * * Resource files must be encoded in UTF-8 and can either be properties * files with a .properties extension assumed. Alternatively, they can * have the following form, with no particular extension assumed: * *
     * # First char # is a comment
     * Entity numericValue
     * quot 34
     * amp 38
     * 
* * @param entitiesResource Name of properties or resource file that should * be loaded, which describes that mapping of characters to entity * references. */ private CharInfo(String entitiesResource, String method) { this(entitiesResource, method, false); } private CharInfo(String entitiesResource, String method, boolean internal) { ResourceBundle entities = null; boolean noExtraEntities = true; // Make various attempts to interpret the parameter as a properties // file or resource file, as follows: // // 1) attempt to load .properties file using ResourceBundle // 2) try using the class loader to find the specified file a resource // file // 3) try treating the resource a URI if (internal) { try { // Load entity property files by using PropertyResourceBundle, // cause of security issure for applets entities = PropertyResourceBundle.getBundle(entitiesResource); } catch (Exception e) {} } if (entities != null) { Enumeration keys = entities.getKeys(); while (keys.hasMoreElements()){ String name = (String) keys.nextElement(); String value = entities.getString(name); int code = Integer.parseInt(value); defineEntity(name, (char) code); if (extraEntity(code)) noExtraEntities = false; } set(S_LINEFEED); set(S_CARRIAGERETURN); } else { InputStream is = null; // Load user specified resource file by using URL loading, it // requires a valid URI as parameter try { if (internal) { is = CharInfo.class.getResourceAsStream(entitiesResource); } else { ClassLoader cl = ObjectFactory.findClassLoader(); if (cl == null) { is = ClassLoader.getSystemResourceAsStream(entitiesResource); } else { is = cl.getResourceAsStream(entitiesResource); } if (is == null) { try { URL url = new URL(entitiesResource); is = url.openStream(); } catch (Exception e) {} } } if (is == null) { throw new RuntimeException( Utils.messages.createMessage( MsgKey.ER_RESOURCE_COULD_NOT_FIND, new Object[] {entitiesResource, entitiesResource})); } // Fix Bugzilla#4000: force reading in UTF-8 // This creates the de facto standard that Xalan's resource // files must be encoded in UTF-8. This should work in all // JVMs. // // %REVIEW% KNOWN ISSUE: IT FAILS IN MICROSOFT VJ++, which // didn't implement the UTF-8 encoding. Theoretically, we should // simply let it fail in that case, since the JVM is obviously // broken if it doesn't support such a basic standard. But // since there are still some users attempting to use VJ++ for // development, we have dropped in a fallback which makes a // second attempt using the platform's default encoding. In VJ++ // this is apparently ASCII, which is subset of UTF-8... and // since the strings we'll be reading here are also primarily // limited to the 7-bit ASCII range (at least, in English // versions of Xalan), this should work well enough to keep us // on the air until we're ready to officially decommit from // VJ++. BufferedReader reader; try { reader = new BufferedReader(new InputStreamReader(is, "UTF-8")); } catch (UnsupportedEncodingException e) { reader = new BufferedReader(new InputStreamReader(is)); } String line = reader.readLine(); while (line != null) { if (line.length() == 0 || line.charAt(0) == '#') { line = reader.readLine(); continue; } int index = line.indexOf(' '); if (index > 1) { String name = line.substring(0, index); ++index; if (index < line.length()) { String value = line.substring(index); index = value.indexOf(' '); if (index > 0) { value = value.substring(0, index); } int code = Integer.parseInt(value); defineEntity(name, (char) code); if (extraEntity(code)) noExtraEntities = false; } } line = reader.readLine(); } is.close(); set(S_LINEFEED); set(S_CARRIAGERETURN); } catch (Exception e) { throw new RuntimeException( Utils.messages.createMessage( MsgKey.ER_RESOURCE_COULD_NOT_LOAD, new Object[] { entitiesResource, e.toString(), entitiesResource, e.toString()})); } finally { if (is != null) { try { is.close(); } catch (Exception except) {} } } } /* initialize the array isCleanTextASCII[] with a cache of values * for use by ToStream.character(char[], int , int) * and the array isSpecialTextASCII[] with the opposite values * (all in the name of performance!) */ for (int ch = 0; ch Unlike internal entities, character references are a string to single * character mapping. They are used to map non-ASCII characters both on * parsing and printing, primarily for HTML documents. '<amp;' is an * example of a character reference.

* * @param name The entity's name * @param value The entity's value */ private void defineEntity(String name, char value) { StringBuilder sb = new StringBuilder("&"); sb.append(name); sb.append(';'); String entityString = sb.toString(); defineChar2StringMapping(entityString, value); } /** * Map a character to a String. For example given * the character '>' this method would return the fully decorated * entity name "<". * Strings for entity references are loaded from a properties file, * but additional mappings defined through calls to defineChar2String() * are possible. Such entity reference mappings could be over-ridden. * * This is reusing a stored key object, in an effort to avoid * heap activity. Unfortunately, that introduces a threading risk. * Simplest fix for now is to make it a synchronized method, or to give * up the reuse; I see very little performance difference between them. * Long-term solution would be to replace the hashtable with a sparse array * keyed directly from the character's integer value; see DTM's * string pool for a related solution. * * @param value The character that should be resolved to * a String, e.g. resolve '>' to "<". * * @return The String that the character is mapped to, or null if not found. * @xsl.usage internal */ String getOutputStringForChar(char value) { CharKey charKey = new CharKey(); charKey.setChar(value); return (String) m_charToString.get(charKey); } /** * Tell if the character argument that is from * an attribute value should have special treatment. * * @param value the value of a character that is in an attribute value * @return true if the character should have any special treatment, * such as when writing out attribute values, * or entity references. * @xsl.usage internal */ final boolean isSpecialAttrChar(int value) { // for performance try the values in the boolean array first, // this is faster access than the BitSet for common ASCII values if (value < ASCII_MAX) return isSpecialAttrASCII[value]; // rather than java.util.BitSet, our private // implementation is faster (and less general). return get(value); } /** * Tell if the character argument that is from a * text node should have special treatment. * * @param value the value of a character that is in a text node * @return true if the character should have any special treatment, * such as when writing out attribute values, * or entity references. * @xsl.usage internal */ final boolean isSpecialTextChar(int value) { // for performance try the values in the boolean array first, // this is faster access than the BitSet for common ASCII values if (value < ASCII_MAX) return isSpecialTextASCII[value]; // rather than java.util.BitSet, our private // implementation is faster (and less general). return get(value); } /** * This method is used to determine if an ASCII character in * a text node (not an attribute value) is "clean". * @param value the character to check (0 to 127). * @return true if the character can go to the writer as-is * @xsl.usage internal */ final boolean isTextASCIIClean(int value) { return isCleanTextASCII[value]; } // In the future one might want to use the array directly and avoid // the method call, but I think the JIT alreay inlines this well enough // so don't do it (for now) - bjm // public final boolean[] getASCIIClean() // { // return isCleanTextASCII; // } private static CharInfo getCharInfoBasedOnPrivilege( final String entitiesFileName, final String method, final boolean internal){ return (CharInfo) AccessController.doPrivileged( new PrivilegedAction() { public Object run() { return new CharInfo(entitiesFileName, method, internal);} }); } /** * Factory that reads in a resource file that describes the mapping of * characters to entity references. * * Resource files must be encoded in UTF-8 and have a format like: *
     * # First char # is a comment
     * Entity numericValue
     * quot 34
     * amp 38
     * 
* (Note: Why don't we just switch to .properties files? Oct-01 -sc) * * @param entitiesResource Name of entities resource file that should * be loaded, which describes that mapping of characters to entity references. * @param method the output method type, which should be one of "xml", "html", "text"... * * @xsl.usage internal */ static CharInfo getCharInfo(String entitiesFileName, String method) { CharInfo charInfo = (CharInfo) m_getCharInfoCache.get(entitiesFileName); if (charInfo != null) { return charInfo; } // try to load it internally - cache try { charInfo = getCharInfoBasedOnPrivilege(entitiesFileName, method, true); m_getCharInfoCache.put(entitiesFileName, charInfo); return charInfo; } catch (Exception e) {} // try to load it externally - do not cache try { return getCharInfoBasedOnPrivilege(entitiesFileName, method, false); } catch (Exception e) {} String absoluteEntitiesFileName; if (entitiesFileName.indexOf(':') < 0) { absoluteEntitiesFileName = SystemIDResolver.getAbsoluteURIFromRelative(entitiesFileName); } else { try { absoluteEntitiesFileName = SystemIDResolver.getAbsoluteURI(entitiesFileName, null); } catch (TransformerException te) { throw new WrappedRuntimeException(te); } } return getCharInfoBasedOnPrivilege(entitiesFileName, method, false); } /** Table of user-specified char infos. */ private static HashMap m_getCharInfoCache = new HashMap(); /** * Returns the array element holding the bit value for the * given integer * @param i the integer that might be in the set of integers * */ private static int arrayIndex(int i) { return (i >> SHIFT_PER_WORD); } /** * For a given integer in the set it returns the single bit * value used within a given word that represents whether * the integer is in the set or not. */ private static int bit(int i) { int ret = (1 << (i & LOW_ORDER_BITMASK)); return ret; } /** * Creates a new empty set of integers (characters) * @param max the maximum integer to be in the set. */ private int[] createEmptySetOfIntegers(int max) { firstWordNotUsed = 0; // an optimization int[] arr = new int[arrayIndex(max - 1) + 1]; return arr; } /** * Adds the integer (character) to the set of integers. * @param i the integer to add to the set, valid values are * 0, 1, 2 ... up to the maximum that was specified at * the creation of the set. */ private final void set(int i) { setASCIIdirty(i); int j = (i >> SHIFT_PER_WORD); // this word is used int k = j + 1; if(firstWordNotUsed < k) // for optimization purposes. firstWordNotUsed = k; array_of_bits[j] |= (1 << (i & LOW_ORDER_BITMASK)); } /** * Return true if the integer (character)is in the set of integers. * * This implementation uses an array of integers with 32 bits per * integer. If a bit is set to 1 the corresponding integer is * in the set of integers. * * @param i an integer that is tested to see if it is the * set of integers, or not. */ private final boolean get(int i) { boolean in_the_set = false; int j = (i >> SHIFT_PER_WORD); // wordIndex(i) // an optimization here, ... a quick test to see // if this integer is beyond any of the words in use if(j < firstWordNotUsed) in_the_set = (array_of_bits[j] & (1 << (i & LOW_ORDER_BITMASK)) ) != 0; // 0L for 64 bit words return in_the_set; } // record if there are any entities other than // quot, amp, lt, gt (probably user defined) /** * @return true if the entity * @param code The value of the character that has an entity defined * for it. */ private boolean extraEntity(int entityValue) { boolean extra = false; if (entityValue < 128) { switch (entityValue) { case 34 : // quot case 38 : // amp case 60 : // lt case 62 : // gt break; default : // other entity in range 0 to 127 extra = true; } } return extra; } /** * If the character is a printable ASCII character then * mark it as not clean and needing replacement with * a String on output. * @param ch */ private void setASCIIdirty(int j) { if (0 <= j && j < ASCII_MAX) { isCleanTextASCII[j] = false; isSpecialTextASCII[j] = true; } } /** * If the character is a printable ASCII character then * mark it as and not needing replacement with * a String on output. * @param ch */ private void setASCIIclean(int j) { if (0 <= j && j < ASCII_MAX) { isCleanTextASCII[j] = true; isSpecialTextASCII[j] = false; } } private void defineChar2StringMapping(String outputString, char inputChar) { CharKey character = new CharKey(inputChar); m_charToString.put(character, outputString); set(inputChar); } /** * Simple class for fast lookup of char values, when used with * hashtables. You can set the char, then use it as a key. * * This class is a copy of the one in com.sun.org.apache.xml.internal.utils. * It exists to cut the serializers dependancy on that package. * * @xsl.usage internal */ private static class CharKey extends Object { /** String value */ private char m_char; /** * Constructor CharKey * * @param key char value of this object. */ public CharKey(char key) { m_char = key; } /** * Default constructor for a CharKey. * * @param key char value of this object. */ public CharKey() { } /** * Get the hash value of the character. * * @return hash value of the character. */ public final void setChar(char c) { m_char = c; } /** * Get the hash value of the character. * * @return hash value of the character. */ public final int hashCode() { return (int)m_char; } /** * Override of equals() for this object * * @param obj to compare to * * @return True if this object equals this string value */ public final boolean equals(Object obj) { return ((CharKey)obj).m_char == m_char; } } }