src/com/ibm/icu/text/ComposedCharIter.java - external/github.com/unicode-org/icu - Git at Google

 /*
  *******************************************************************************
  * Copyright (C) 1996-2004, International Business Machines Corporation and    *
  * others. All Rights Reserved.                                                *
  *******************************************************************************
  */
 package com.ibm.icu.text;
 import com.ibm.icu.impl.NormalizerImpl;

 /**
  * <tt>ComposedCharIter</tt> is an iterator class that returns all
  * of the precomposed characters defined in the Unicode standard, along
  * with their decomposed forms.  This is often useful when building
  * data tables (<i>e.g.</i> collation tables) which need to treat composed
  * and decomposed characters equivalently.
  * <p>
  * For example, imagine that you have built a collation table with ordering
  * rules for the {@link Normalizer#DECOMP canonically decomposed} forms of all
  * characters used in a particular language.  When you process input text using
  * this table, the text must first be decomposed so that it matches the form
  * used in the table.  This can impose a performance penalty that may be
  * unacceptable in some situations.
  * <p>
  * You can avoid this problem by ensuring that the collation table contains
  * rules for both the decomposed <i>and</i> composed versions of each character.
  * To do so, use a <tt>ComposedCharIter</tt> to iterate through all of the
  * composed characters in Unicode.  If the decomposition for that character
  * consists solely of characters that are listed in your ruleset, you can
  * add a new rule for the composed character that makes it equivalent to
  * its decomposition sequence.
  * <p>
  * Note that <tt>ComposedCharIter</tt> iterates over a <em>static</em> table
  * of the composed characters in Unicode.  If you want to iterate over the
  * composed characters in a particular string, use {@link Normalizer} instead.
  * <p>
  * When constructing a <tt>ComposedCharIter</tt> there is one
  * optional feature that you can enable or disable:
  * <ul>
  *   <li>{@link Normalizer#IGNORE_HANGUL} - Do not iterate over the Hangul
  *          characters and their corresponding Jamo decompositions.
  *          This option is off by default (<i>i.e.</i> Hangul processing is enabled)
  *          since the Unicode standard specifies that Hangul to Jamo
  *          is a canonical decomposition.
  * </ul>
  * <p>
  * <tt>ComposedCharIter</tt> is currently based on version 2.1.8 of the
  * <a href="http://www.unicode.org" target="unicode">Unicode Standard</a>.
  * It will be updated as later versions of Unicode are released.
  * @deprecated ICU 2.2
  */
 ///CLOVER:OFF
 public final class ComposedCharIter {

     /**
      * Constant that indicates the iteration has completed.
      * {@link #next} returns this value when there are no more composed characters
      * over which to iterate.
      * @deprecated ICU 2.2
      */
     public static final  char DONE = (char) Normalizer.DONE;

     /**
      * Construct a new <tt>ComposedCharIter</tt>.  The iterator will return
      * all Unicode characters with canonical decompositions, including Korean
      * Hangul characters.
      * @deprecated ICU 2.2
      */
     public ComposedCharIter() {
         compat = false;
         options =0;
     }


     /**
      * Constructs a non-default <tt>ComposedCharIter</tt> with optional behavior.
      * <p>
      * @param compat    <tt>false</tt> for canonical decompositions only;
      *                  <tt>true</tt> for both canonical and compatibility
      *                  decompositions.
      *
      * @param options   Optional decomposition features.  Currently, the only
      *                  supported option is {@link Normalizer#IGNORE_HANGUL}, which
      *                  causes this <tt>ComposedCharIter</tt> not to iterate
      *                  over the Hangul characters and their corresponding
      *                  Jamo decompositions.
      * @deprecated ICU 2.2
      */
     public ComposedCharIter(boolean compat, int options) {
         this.compat = compat;
         this.options = options;
     }

     /**
      * Determines whether there any precomposed Unicode characters not yet returned
      * by {@link #next}.
      * @deprecated ICU 2.2
      */
     public boolean hasNext() {
         if (nextChar == Normalizer.DONE)  {
             findNextChar();
         }
         return nextChar != Normalizer.DONE;
     }

     /**
      * Returns the next precomposed Unicode character.
      * Repeated calls to <tt>next</tt> return all of the precomposed characters defined
      * by Unicode, in ascending order.  After all precomposed characters have
      * been returned, {@link #hasNext} will return <tt>false</tt> and further calls
      * to <tt>next</tt> will return {@link #DONE}.
      * @deprecated ICU 2.2
      */
     public char next() {
         if (nextChar == Normalizer.DONE)  {
             findNextChar();
         }
         curChar = nextChar;
         nextChar = Normalizer.DONE;
         return (char) curChar;
     }

     /**
      * Returns the Unicode decomposition of the current character.
      * This method returns the decomposition of the precomposed character most
      * recently returned by {@link #next}.  The resulting decomposition is
      * affected by the settings of the options passed to the constructor.
      * @deprecated ICU 2.2
      */
     public String decomposition() {
         // the decomposition buffer contains the decomposition of
         // current char so just return it
         return new String(decompBuf,0, bufLen);
     }

     private void findNextChar() {
         int c=curChar+1;
         for(;;){
            if(c < 0xFFFF){
                bufLen = NormalizerImpl.getDecomposition(c,compat,
                                                         decompBuf,0,
                                                         decompBuf.length);
                if(bufLen>0){
                     // the curChar can be decomposed... so it is a composed char
                     // cache the result
                     break;
                }
                c++;
            }else{
                c=Normalizer.DONE;
                break;
            }
         }
         nextChar=c;
     }

     private int options;
     private boolean compat;
     private char[] decompBuf = new char[100];
     private int bufLen=0;
     private int curChar = 0;
     private int nextChar = Normalizer.DONE;


 };
	/*
	*******************************************************************************
	* Copyright (C) 1996-2004, International Business Machines Corporation and *
	* others. All Rights Reserved. *
	*******************************************************************************
	*/
	package com.ibm.icu.text;
	import com.ibm.icu.impl.NormalizerImpl;

	/**
	* <tt>ComposedCharIter</tt> is an iterator class that returns all
	* of the precomposed characters defined in the Unicode standard, along
	* with their decomposed forms. This is often useful when building
	* data tables (<i>e.g.</i> collation tables) which need to treat composed
	* and decomposed characters equivalently.
	* <p>
	* For example, imagine that you have built a collation table with ordering
	* rules for the {@link Normalizer#DECOMP canonically decomposed} forms of all
	* characters used in a particular language. When you process input text using
	* this table, the text must first be decomposed so that it matches the form
	* used in the table. This can impose a performance penalty that may be
	* unacceptable in some situations.
	* <p>
	* You can avoid this problem by ensuring that the collation table contains
	* rules for both the decomposed <i>and</i> composed versions of each character.
	* To do so, use a <tt>ComposedCharIter</tt> to iterate through all of the
	* composed characters in Unicode. If the decomposition for that character
	* consists solely of characters that are listed in your ruleset, you can
	* add a new rule for the composed character that makes it equivalent to
	* its decomposition sequence.
	* <p>
	* Note that <tt>ComposedCharIter</tt> iterates over a <em>static</em> table
	* of the composed characters in Unicode. If you want to iterate over the
	* composed characters in a particular string, use {@link Normalizer} instead.
	* <p>
	* When constructing a <tt>ComposedCharIter</tt> there is one
	* optional feature that you can enable or disable:
	* <ul>
	* <li>{@link Normalizer#IGNORE_HANGUL} - Do not iterate over the Hangul
	* characters and their corresponding Jamo decompositions.
	* This option is off by default (<i>i.e.</i> Hangul processing is enabled)
	* since the Unicode standard specifies that Hangul to Jamo
	* is a canonical decomposition.
	* </ul>
	* <p>
	* <tt>ComposedCharIter</tt> is currently based on version 2.1.8 of the
	* <a href="http://www.unicode.org" target="unicode">Unicode Standard</a>.
	* It will be updated as later versions of Unicode are released.
	* @deprecated ICU 2.2
	*/
	///CLOVER:OFF
	public final class ComposedCharIter {

	/**
	* Constant that indicates the iteration has completed.
	* {@link #next} returns this value when there are no more composed characters
	* over which to iterate.
	* @deprecated ICU 2.2
	*/
	public static final char DONE = (char) Normalizer.DONE;

	/**
	* Construct a new <tt>ComposedCharIter</tt>. The iterator will return
	* all Unicode characters with canonical decompositions, including Korean
	* Hangul characters.
	* @deprecated ICU 2.2
	*/
	public ComposedCharIter() {
	compat = false;
	options =0;
	}


	/**
	* Constructs a non-default <tt>ComposedCharIter</tt> with optional behavior.
	* <p>
	* @param compat <tt>false</tt> for canonical decompositions only;
	* <tt>true</tt> for both canonical and compatibility
	* decompositions.
	*
	* @param options Optional decomposition features. Currently, the only
	* supported option is {@link Normalizer#IGNORE_HANGUL}, which
	* causes this <tt>ComposedCharIter</tt> not to iterate
	* over the Hangul characters and their corresponding
	* Jamo decompositions.
	* @deprecated ICU 2.2
	*/
	public ComposedCharIter(boolean compat, int options) {
	this.compat = compat;
	this.options = options;
	}

	/**
	* Determines whether there any precomposed Unicode characters not yet returned
	* by {@link #next}.
	* @deprecated ICU 2.2
	*/
	public boolean hasNext() {
	if (nextChar == Normalizer.DONE) {
	findNextChar();
	}
	return nextChar != Normalizer.DONE;
	}

	/**
	* Returns the next precomposed Unicode character.
	* Repeated calls to <tt>next</tt> return all of the precomposed characters defined
	* by Unicode, in ascending order. After all precomposed characters have
	* been returned, {@link #hasNext} will return <tt>false</tt> and further calls
	* to <tt>next</tt> will return {@link #DONE}.
	* @deprecated ICU 2.2
	*/
	public char next() {
	if (nextChar == Normalizer.DONE) {
	findNextChar();
	}
	curChar = nextChar;
	nextChar = Normalizer.DONE;
	return (char) curChar;
	}

	/**
	* Returns the Unicode decomposition of the current character.
	* This method returns the decomposition of the precomposed character most
	* recently returned by {@link #next}. The resulting decomposition is
	* affected by the settings of the options passed to the constructor.
	* @deprecated ICU 2.2
	*/
	public String decomposition() {
	// the decomposition buffer contains the decomposition of
	// current char so just return it
	return new String(decompBuf,0, bufLen);
	}

	private void findNextChar() {
	int c=curChar+1;
	for(;;){
	if(c < 0xFFFF){
	bufLen = NormalizerImpl.getDecomposition(c,compat,
	decompBuf,0,
	decompBuf.length);
	if(bufLen>0){
	// the curChar can be decomposed... so it is a composed char
	// cache the result
	break;
	}
	c++;
	}else{
	c=Normalizer.DONE;
	break;
	}
	}
	nextChar=c;
	}

	private int options;
	private boolean compat;
	private char[] decompBuf = new char[100];
	private int bufLen=0;
	private int curChar = 0;
	private int nextChar = Normalizer.DONE;


	};