// RuleBasedCollator.java - Concrete class for locale-based string compare. /* Copyright (C) 1999 Red Hat, Inc. This file is part of libgcj. This software is copyrighted work licensed under the terms of the Libgcj License. Please consult the file "LIBGCJ_LICENSE" for details. */ package java.text; import java.util.Enumeration; import java.util.Hashtable; import java.util.Vector; /** * @author Tom Tromey * @date March 25, 1999 */ /* Written using "Java Class Libraries", 2nd edition, plus online * API docs for JDK 1.2 from http://www.javasoft.com. * Status: Believed complete and correct */ class RBCElement { String key; char relation; RBCElement (String key, char relation) { this.key = key; this.relation = relation; } } public class RuleBasedCollator extends Collator { public Object clone () { return new RuleBasedCollator (this); } // A helper for CollationElementIterator.next(). int ceiNext (CollationElementIterator cei) { if (cei.lookahead_set) { cei.lookahead_set = false; return cei.lookahead; } int save = cei.index; int max = cei.text.length(); String s = null; // It is possible to have a case where `abc' has a mapping, but // neither `ab' nor `abd' do. In this case we must treat `abd' as // nothing special. boolean found = false; int i; for (i = save + 1; i <= max; ++i) { s = cei.text.substring(save, i); if (prefixes.get(s) == null) break; found = true; } // Assume s != null. Object obj = map.get(s); // The special case. while (found && obj == null && s.length() > 1) { --i; s = cei.text.substring(save, i); obj = map.get(s); } // Update state. cei.index = i; if (obj == null) { // This idea, and the values, come from JDK. // assert (s.length() == 1) cei.lookahead_set = true; cei.lookahead = s.charAt(0) << 8; return 0x7fff << 16; } return ((Integer) obj).intValue(); } // A helper for compareTo() that returns the next character that has // a nonzero ordering at the indicated strength. This is also used // in CollationKey. static final int next (CollationElementIterator iter, int strength) { while (true) { int os = iter.next(); if (os == CollationElementIterator.NULLORDER) return os; int c = 0; switch (strength) { case PRIMARY: c = os & ~0xffff; break; case SECONDARY: c = os & ~0x00ff; break; case TERTIARY: case IDENTICAL: c = os; break; } if (c != 0) return c; } } public int compare (String source, String target) { CollationElementIterator cs, ct; cs = new CollationElementIterator (source, this); ct = new CollationElementIterator (target, this); while (true) { int os = next (cs, strength); int ot = next (ct, strength); if (os == CollationElementIterator.NULLORDER && ot == CollationElementIterator.NULLORDER) break; else if (os == CollationElementIterator.NULLORDER) { // Source string is shorter, so return "less than". return -1; } else if (ot == CollationElementIterator.NULLORDER) { // Target string is shorter, so return "greater than". return 1; } if (os != ot) return os - ot; } return 0; } public boolean equals (Object obj) { if (! (obj instanceof RuleBasedCollator) || ! super.equals(obj)) return false; RuleBasedCollator rbc = (RuleBasedCollator) obj; // FIXME: this is probably wrong. Instead we should compare maps // directly. return (frenchAccents == rbc.frenchAccents && rules.equals(rbc.rules)); } public CollationElementIterator getCollationElementIterator (String source) { StringBuffer expand = new StringBuffer (source.length()); int max = source.length(); for (int i = 0; i < max; ++i) decomposeCharacter (source.charAt(i), expand); return new CollationElementIterator (expand.toString(), this); } public CollationKey getCollationKey (String source) { return new CollationKey (getCollationElementIterator (source), source, strength); } public String getRules () { return rules; } public int hashCode () { return (frenchAccents ? 1231 : 1237 ^ rules.hashCode() ^ map.hashCode() ^ prefixes.hashCode()); } private final boolean is_special (char c) { // Rules from JCL book. return ((c >= 0x0009 && c <= 0x000d) || (c >= 0x0020 && c <= 0x002f) || (c >= 0x003a && c <= 0x0040) || (c >= 0x005b && c <= 0x0060) || (c >= 0x007b && c <= 0x007e)); } private final int text_argument (String rules, int index, StringBuffer result) { result.setLength(0); int len = rules.length(); while (index < len) { char c = rules.charAt(index); if (c == '\'' && index + 2 < len && rules.charAt(index + 2) == '\'' && is_special (rules.charAt(index + 1))) index += 2; else if (is_special (c) || Character.isWhitespace(c)) return index; result.append(c); ++index; } return index; } public RuleBasedCollator (String rules) throws ParseException { this.rules = rules; this.frenchAccents = false; // We keep each rule in order in a vector. At the end we traverse // the vector and compute collation values from it. int insertion_index = 0; Vector vec = new Vector (); StringBuffer argument = new StringBuffer (); int len = rules.length(); for (int index = 0; index < len; ++index) { char c = rules.charAt(index); // Just skip whitespace. if (Character.isWhitespace(c)) continue; // Modifier. if (c == '@') { frenchAccents = true; continue; } // Check for relation or reset operator. if (! (c == '<' || c == ';' || c == ',' || c == '=' || c == '&')) throw new ParseException ("invalid character", index); ++index; while (index < len) { if (! Character.isWhitespace(rules.charAt(index))) break; ++index; } if (index == len) throw new ParseException ("missing argument", index); int save = index; index = text_argument (rules, index, argument); if (argument.length() == 0) throw new ParseException ("invalid character", save); String arg = argument.toString(); int item_index = vec.indexOf(arg); if (c != '&') { // If the argument already appears in the vector, then we // must remove it in order to re-order. if (item_index != -1) { vec.removeElementAt(item_index); if (insertion_index >= item_index) --insertion_index; } RBCElement r = new RBCElement (arg, c); vec.insertElementAt(r, insertion_index); ++insertion_index; } else { // Reset. if (item_index == -1) throw new ParseException ("argument to reset not previously seen", save); insertion_index = item_index + 1; } // Ugly: in this case the resulting INDEX comes from // text_argument, which returns the index of the next // character we should examine. --index; } // Now construct a hash table that maps strings onto their // collation values. int primary = 0; int secondary = 0; int tertiary = 0; this.map = new Hashtable (); this.prefixes = new Hashtable (); Enumeration e = vec.elements(); while (e.hasMoreElements()) { RBCElement r = (RBCElement) e.nextElement(); switch (r.relation) { case '<': ++primary; secondary = 0; tertiary = 0; break; case ';': ++secondary; tertiary = 0; break; case ',': ++tertiary; break; case '=': break; } // This must match CollationElementIterator. map.put(r.key, new Integer (primary << 16 | secondary << 8 | tertiary)); // Make a map of all lookaheads we might need. for (int i = r.key.length() - 1; i >= 1; --i) prefixes.put(r.key.substring(0, i), Boolean.TRUE); } } // This is a helper for clone. private RuleBasedCollator (RuleBasedCollator other) { frenchAccents = other.frenchAccents; rules = other.rules; decmp = other.decmp; strength = other.strength; map = other.map; prefixes = other.prefixes; } // True if we are using French-style accent ordering. private boolean frenchAccents; // It's easier to just save the rules than to try to recreate them. private String rules; // This maps strings onto collation values. private Hashtable map; // An entry in this hash means that more lookahead is required for // the prefix string. private Hashtable prefixes; }