/* RuleBasedCollator.java -- Concrete Collator Class Copyright (C) 1998, 1999, 2001 Free Software Foundation, Inc. This file is part of GNU Classpath. GNU Classpath is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. GNU Classpath is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GNU Classpath; see the file COPYING. If not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. As a special exception, if you link this library with other files to produce an executable, this library does not by itself cause the resulting executable to be covered by the GNU General Public License. This exception does not however invalidate any other reasons why the executable file might be covered by the GNU General Public License. */ package java.text; import java.util.Vector; /** * This class is a concrete subclass of Collator suitable * for string collation in a wide variety of languages. An instance of * this class is normally returned by the getInstance method * of Collator with rules predefined for the requested * locale. However, an instance of this class can be created manually * with any desired rules. *

* Rules take the form of a String with the following syntax *

Modifier: '@' *
Relation: '<' | ';' | ',' | '=' : *
Reset: '&' : *

* The modifier character indicates that accents sort backward as is the * case with French. The relational operators specify how the text * argument relates to the previous term. The relation characters have * the following meanings: *

'<' - The text argument is greater than the prior term at the primary * difference level. *
';' - The text argument is greater than the prior term at the secondary * difference level. *
',' - The text argument is greater than the prior term at the tertiary * difference level. *
'=' - The text argument is equal to the prior term *

* As for the text argument itself, this is any sequence of Unicode * characters not in the following ranges: 0x0009-0x000D, 0x0020-0x002F, * 0x003A-0x0040, 0x005B-0x0060, and 0x007B-0x007E. If these characters are * desired, they must be enclosed in single quotes. If any whitespace is * encountered, it is ignored. (For example, "a b" is equal to "ab"). *

* The reset operation inserts the following rule at the point where the * text argument to it exists in the previously declared rule string. This * makes it easy to add new rules to an existing string by simply including * them in a reset sequence at the end. Note that the text argument, or * at least the first character of it, must be present somewhere in the * previously declared rules in order to be inserted properly. If this * is not satisfied, a ParseException will be thrown. *

* This system of configuring RuleBasedCollator is needlessly * complex and the people at Taligent who developed it (along with the folks * at Sun who accepted it into the Java standard library) deserve a slow * and agonizing death. *

* Here are a couple of example of rule strings: *

* "< a < b < c" - This string says that a is greater than b which is * greater than c, with all differences being primary differences. *

* "< a,A < b,B < c,C" - This string says that 'A' is greater than 'a' with * a tertiary strength comparison. Both 'b' and 'B' are greater than 'a' and * 'A' during a primary strength comparison. But 'B' is greater than 'b' * under a tertiary strength comparison. *

* "< a < c & a < b " - This sequence is identical in function to the * "< a < b < c" rule string above. The '&' reset symbol indicates that * the rule "< b" is to be inserted after the text argument "a" in the * previous rule string segment. *

* "< a < b & y < z" - This is an error. The character 'y' does not appear * anywhere in the previous rule string segment so the rule following the * reset rule cannot be inserted. *

* For a description of the various comparison strength types, see the * documentation for the Collator class. *

* As an additional complication to this already overly complex rule scheme, * if any characters precede the first rule, these characters are considered * ignorable. They will be treated as if they did not exist during * comparisons. For example, "- < a < b ..." would make '-' an ignorable * character such that the strings "high-tech" and "hightech" would * be considered identical. *

* A ParseException will be thrown for any of the following * conditions: *

Unquoted punctuation characters in a text argument. *
A relational or reset operator not followed by a text argument *
A reset operator where the text argument is not present in * the previous rule string section. *

* * @author Aaron M. Renn (arenn@urbanophile.com) */ public class RuleBasedCollator extends Collator { /* * Inner Classes */ class CollationElement { String char_seq; int primary; short secondary; short tertiary; CollationElement(String char_seq, int primary, short secondary, short tertiary) { this.char_seq = char_seq; this.primary = primary; this.secondary = secondary; this.tertiary = tertiary; } } // inner class CollationElement /*************************************************************************/ /* * Instance Variables */ /** * This the the original rule string. */ private String rules; /** * This is the table of collation element values */ private Object[] ce_table; /*************************************************************************/ /* * Constructors */ /** * This method initializes a new instance of RuleBasedCollator * with the specified collation rules. Note that an application normally * obtains an instance of RuleBasedCollator by calling the * getInstance method of Collator. That method * automatically loads the proper set of rules for the desired locale. * * @param rules The collation rule string. * * @exception ParseException If the rule string contains syntax errors. */ public RuleBasedCollator(String rules) throws ParseException { this.rules = rules; if (rules.equals("")) throw new IllegalArgumentException("Empty rule set"); Vector v = new Vector(); boolean ignore_chars = true; int primary_seq = 0; short secondary_seq = 0; short tertiary_seq = 0; StringBuffer sb = new StringBuffer(""); for (int i = 0; i < rules.length(); i++) { char c = rules.charAt(i); // Check if it is a whitespace character if (((c >= 0x09) && (c <= 0x0D)) || (c == 0x20)) continue; // Primary difference if (c == '<') { ignore_chars = false; secondary_seq = 0; tertiary_seq = 0; ++primary_seq; CollationElement e = new CollationElement(sb.toString(), primary_seq, secondary_seq, tertiary_seq); v.add(e); sb.setLength(0); continue; } // Secondary difference if (c == ';') { if (primary_seq == 0) throw new ParseException(rules, i); ++secondary_seq; tertiary_seq = 0; CollationElement e = new CollationElement(sb.toString(), primary_seq, secondary_seq, tertiary_seq); v.add(e); sb.setLength(0); continue; } // Tertiary difference if (c == ',') { if (primary_seq == 0) throw new ParseException(rules, i); ++tertiary_seq; CollationElement e = new CollationElement(sb.toString(), primary_seq, secondary_seq, tertiary_seq); v.add(e); sb.setLength(0); continue; } // Is equal to if (c == '=') { if (primary_seq == 0) throw new ParseException(rules, i); CollationElement e = new CollationElement(sb.toString(), primary_seq, secondary_seq, tertiary_seq); v.add(e); sb.setLength(0); continue; } // Sort accents backwards if (c == '@') { throw new ParseException("French style accents not implemented yet", 0); } // Reset command if (c == '&') { throw new ParseException("Reset not implemented yet", 0); } // See if we are still reading characters to skip if (ignore_chars == true) { CollationElement e = new CollationElement(c + "", 0, (short)0, (short)0); v.add(e); continue; } sb.append(c); } ce_table = v.toArray(); } /*************************************************************************/ /* * Instance Methods */ /** * This method returns a String containing the collation rules * for this object. * * @return The collation rules for this object. */ public String getRules() { return(rules); } /*************************************************************************/ /** * This method calculates the collation element value for the specified * character(s). */ int getCollationElementValue(String str) { CollationElement e = null; // The table is sorted. Change to a binary search later. for (int i = 0; i < ce_table.length; i++) if (((CollationElement)ce_table[i]).char_seq.equals(str)) { e = (CollationElement)ce_table[i]; break; } if (e == null) e = new CollationElement(str, 0xFFFF, (short)0xFF, (short)0xFF); int retval = (e.primary << 16) + (e.secondary << 8) + e.tertiary; return(retval); } /*************************************************************************/ /** * This method returns an instance for CollationElementIterator * for the specified String under the collation rules for this * object. * * @param str The String to return the CollationElementIterator instance for. * * @return A CollationElementIterator for the specified String. */ public CollationElementIterator getCollationElementIterator(String str) { return(new CollationElementIterator(this, str)); } /*************************************************************************/ /** * This method returns an instance of CollationElementIterator * for the String represented by the specified * CharacterIterator. * * @param ci The CharacterIterator with the desired String. * * @return A CollationElementIterator for the specified String. */ public CollationElementIterator getCollationElementIterator(CharacterIterator ci) { StringBuffer sb = new StringBuffer(""); // Right now we assume that we will read from the beginning of the string. char c = ci.first(); while (c != CharacterIterator.DONE) { sb.append(c); c = ci.next(); } return(getCollationElementIterator(sb.toString())); } /*************************************************************************/ /** * This method returns an integer which indicates whether the first * specified String is less than, greater than, or equal to * the second. The value depends not only on the collation rules in * effect, but also the strength and decomposition settings of this object. * * @param s1 The first String to compare. * @param s2 A second String to compare to the first. * * @return A negative integer if s1 < s2, a positive integer if s1 > s2, or 0 if s1 == s2. */ public int compare(String s1, String s2) { CollationElementIterator cei1 = getCollationElementIterator(s1); CollationElementIterator cei2 = getCollationElementIterator(s2); for(;;) { int ord1 = cei1.next(); int ord2 = cei2.next(); // Check for end of string if (ord1 == CollationElementIterator.NULLORDER) if (ord2 == CollationElementIterator.NULLORDER) return(0); else return(-1); else if (ord2 == CollationElementIterator.NULLORDER) return(1); // We know chars are totally equal, so skip if (ord1 == ord2) continue; // Check for primary strength differences int prim1 = cei1.primaryOrder(ord1); int prim2 = cei2.primaryOrder(ord2); if (prim1 < prim2) return(-1); else if (prim1 > prim2) return(1); else if (getStrength() == PRIMARY) continue; // Check for secondary strength differences int sec1 = cei1.secondaryOrder(ord1); int sec2 = cei2.secondaryOrder(ord2); if (sec1 < sec2) return(-1); else if (sec1 > sec2) return(1); else if (getStrength() == SECONDARY) continue; // Check for tertiary differences int tert1 = cei1.tertiaryOrder(ord1); int tert2 = cei2.tertiaryOrder(ord1); if (tert1 < tert2) return(-1); else if (tert1 > tert2) return(1); } } /*************************************************************************/ /** * This method returns an instance of CollationKey for the * specified String. The object returned will have a * more efficient mechanism for its comparison function that could * provide speed benefits if multiple comparisons are performed, such * as during a sort. * * @param str The String to create a CollationKey for. * * @return A CollationKey for the specified String. */ public CollationKey getCollationKey(String str) { CollationElementIterator cei = getCollationElementIterator(str); Vector vect = new Vector(25); int ord = cei.next(); while (ord != CollationElementIterator.NULLORDER) { switch (getStrength()) { case PRIMARY: ord = cei.primaryOrder(ord); break; case SECONDARY: ord = cei.secondaryOrder(ord); default: break; } vect.add(new Integer(ord)); } Object[] objarr = vect.toArray(); byte[] key = new byte[objarr.length * 4]; for (int i = 0; i < key.length; i++) { int j = ((Integer)objarr[i]).intValue(); key[i++] = (byte)((j & 0xFF000000) >> 24); key[i++] = (byte)((j & 0x00FF0000) >> 16); key[i++] = (byte)((j & 0x0000FF00) >> 8); key[i++] = (byte)(j & 0x000000FF); } return(new CollationKey(this, str, key)); } /*************************************************************************/ /** * This method tests this object for equality against the specified * object. This will be true if and only if the specified object is * another reference to this object. * * @param obj The Object to compare against this object. * * @return true if the specified object is equal to this object, false otherwise. */ public boolean equals(Object obj) { if (obj == this) return(true); else return(false); } /*************************************************************************/ /** * This method returns a hash value for this object. * * @return A hash value for this object. */ public int hashCode() { return(System.identityHashCode(this)); } /*************************************************************************/ /** * This method creates a copy of this object. * * @return A copy of this object. */ public Object clone() { return super.clone(); } } // class RuleBasedCollator