/* GENERATED SOURCE. DO NOT MODIFY. */ // © 2016 and later: Unicode, Inc. and others. // License & terms of use: http://www.unicode.org/copyright.html /* ******************************************************************************* * Copyright (C) 1996-2016, International Business Machines Corporation and * others. All Rights Reserved. ******************************************************************************* */ package android.icu.text; import java.text.CharacterIterator; import android.icu.impl.CharacterIteratorWrapper; import android.icu.impl.ReplaceableUCharacterIterator; import android.icu.impl.UCharArrayIterator; import android.icu.impl.UCharacterIteratorWrapper; /** * Abstract class that defines an API for iteration on text objects.This is an interface for forward and backward * iteration and random access into a text object. Forward iteration is done with post-increment and backward iteration * is done with pre-decrement semantics, while the java.text.CharacterIterator interface methods provided * forward iteration with "pre-increment" and backward iteration with pre-decrement semantics. This API is more * efficient for forward iteration over code points. The other major difference is that this API can do both code unit * and code point iteration, java.text.CharacterIterator can only iterate over code units and is limited to * BMP (0 - 0xFFFF) * * @author Ram */ public abstract class UCharacterIterator implements Cloneable, UForwardCharacterIterator { /** * Protected default constructor for the subclasses */ protected UCharacterIterator() { } // static final methods ---------------------------------------------------- /** * Returns a UCharacterIterator object given a Replaceable object. * * @param source * a valid source as a Replaceable object * @return UCharacterIterator object * @exception IllegalArgumentException * if the argument is null */ public static final UCharacterIterator getInstance(Replaceable source) { return new ReplaceableUCharacterIterator(source); } /** * Returns a UCharacterIterator object given a source string. * * @param source * a string * @return UCharacterIterator object * @exception IllegalArgumentException * if the argument is null */ public static final UCharacterIterator getInstance(String source) { return new ReplaceableUCharacterIterator(source); } /** * Returns a UCharacterIterator object given a source character array. * * @param source * an array of UTF-16 code units * @return UCharacterIterator object * @exception IllegalArgumentException * if the argument is null */ public static final UCharacterIterator getInstance(char[] source) { return getInstance(source, 0, source.length); } /** * Returns a UCharacterIterator object given a source character array. * * @param source * an array of UTF-16 code units * @return UCharacterIterator object * @exception IllegalArgumentException * if the argument is null */ public static final UCharacterIterator getInstance(char[] source, int start, int limit) { return new UCharArrayIterator(source, start, limit); } /** * Returns a UCharacterIterator object given a source StringBuffer. * * @param source * an string buffer of UTF-16 code units * @return UCharacterIterator object * @exception IllegalArgumentException * if the argument is null */ public static final UCharacterIterator getInstance(StringBuffer source) { return new ReplaceableUCharacterIterator(source); } /** * Returns a UCharacterIterator object given a CharacterIterator. * * @param source * a valid CharacterIterator object. * @return UCharacterIterator object * @exception IllegalArgumentException * if the argument is null */ public static final UCharacterIterator getInstance(CharacterIterator source) { return new CharacterIteratorWrapper(source); } // public methods ---------------------------------------------------------- /** * Returns a java.text.CharacterIterator object for the underlying text of this iterator. The returned * iterator is independent of this iterator. * * @return java.text.CharacterIterator object */ public CharacterIterator getCharacterIterator() { return new UCharacterIteratorWrapper(this); } /** * Returns the code unit at the current index. If index is out of range, returns DONE. Index is not changed. * * @return current code unit */ public abstract int current(); /** * Returns the codepoint at the current index. If the current index is invalid, DONE is returned. If the current * index points to a lead surrogate, and there is a following trail surrogate, then the code point is returned. * Otherwise, the code unit at index is returned. Index is not changed. * * @return current codepoint */ public int currentCodePoint() { int ch = current(); if (UTF16.isLeadSurrogate(ch)) { // advance the index to get the // next code point next(); // due to post increment semantics // current() after next() actually // returns the char we want int ch2 = current(); // current should never change // the current index so back off previous(); if (UTF16.isTrailSurrogate(ch2)) { // we found a surrogate pair // return the codepoint return Character.toCodePoint((char) ch, (char) ch2); } } return ch; } /** * Returns the length of the text * * @return length of the text */ public abstract int getLength(); /** * Gets the current index in text. * * @return current index in text. */ public abstract int getIndex(); /** * Returns the UTF16 code unit at index, and increments to the next code unit (post-increment semantics). If index * is out of range, DONE is returned, and the iterator is reset to the limit of the text. * * @return the next UTF16 code unit, or DONE if the index is at the limit of the text. */ @Override public abstract int next(); /** * Returns the code point at index, and increments to the next code point (post-increment semantics). If index does * not point to a valid surrogate pair, the behavior is the same as next(). Otherwise the iterator is * incremented past the surrogate pair, and the code point represented by the pair is returned. * * @return the next codepoint in text, or DONE if the index is at the limit of the text. */ @Override public int nextCodePoint() { int ch1 = next(); if (UTF16.isLeadSurrogate(ch1)) { int ch2 = next(); if (UTF16.isTrailSurrogate(ch2)) { return Character.toCodePoint((char) ch1, (char) ch2); } else if (ch2 != DONE) { // unmatched surrogate so back out previous(); } } return ch1; } /** * Decrement to the position of the previous code unit in the text, and return it (pre-decrement semantics). If the * resulting index is less than 0, the index is reset to 0 and DONE is returned. * * @return the previous code unit in the text, or DONE if the new index is before the start of the text. */ public abstract int previous(); /** * Retreat to the start of the previous code point in the text, and return it (pre-decrement semantics). If the * index is not preceded by a valid surrogate pair, the behavior is the same as previous(). Otherwise * the iterator is decremented to the start of the surrogate pair, and the code point represented by the pair is * returned. * * @return the previous code point in the text, or DONE if the new index is before the start of the text. */ public int previousCodePoint() { int ch1 = previous(); if (UTF16.isTrailSurrogate(ch1)) { int ch2 = previous(); if (UTF16.isLeadSurrogate(ch2)) { return Character.toCodePoint((char) ch2, (char) ch1); } else if (ch2 != DONE) { // unmatched trail surrogate so back out next(); } } return ch1; } /** * Sets the index to the specified index in the text. * * @param index * the index within the text. * @exception IndexOutOfBoundsException * is thrown if an invalid index is supplied */ public abstract void setIndex(int index); /** * Sets the current index to the limit. */ public void setToLimit() { setIndex(getLength()); } /** * Sets the current index to the start. */ public void setToStart() { setIndex(0); } /** * Fills the buffer with the underlying text storage of the iterator If the buffer capacity is not enough a * exception is thrown. The capacity of the fill in buffer should at least be equal to length of text in the * iterator obtained by calling getLength()). Usage: * * 
     *         UChacterIterator iter = new UCharacterIterator.getInstance(text);
     *         char[] buf = new char[iter.getLength()];
     *         iter.getText(buf);
     *
     *         OR
     *         char[] buf= new char[1];
     *         int len = 0;
     *         for(;;){
     *             try{
     *                 len = iter.getText(buf);
     *                 break;
     *             }catch(IndexOutOfBoundsException e){
     *                 buf = new char[iter.getLength()];
     *             }
     *         }
     *
* * @param fillIn * an array of chars to fill with the underlying UTF-16 code units. * @param offset * the position within the array to start putting the data. * @return the number of code units added to fillIn, as a convenience * @exception IndexOutOfBoundsException * exception if there is not enough room after offset in the array, or if offset < 0. */ public abstract int getText(char[] fillIn, int offset); /** * Convenience override for getText(char[], int) that provides an offset of 0. * * @param fillIn * an array of chars to fill with the underlying UTF-16 code units. * @return the number of code units added to fillIn, as a convenience * @exception IndexOutOfBoundsException * exception if there is not enough room in the array. */ public final int getText(char[] fillIn) { return getText(fillIn, 0); } /** * Convenience method for returning the underlying text storage as as string * * @return the underlying text storage in the iterator as a string */ public String getText() { char[] text = new char[getLength()]; getText(text); return new String(text); } /** * Moves the current position by the number of code units specified, either forward or backward depending on the * sign of delta (positive or negative respectively). If the resulting index would be less than zero, the index is * set to zero, and if the resulting index would be greater than limit, the index is set to limit. * * @param delta * the number of code units to move the current index. * @return the new index. * @exception IndexOutOfBoundsException * is thrown if an invalid index is supplied * */ public int moveIndex(int delta) { int x = Math.max(0, Math.min(getIndex() + delta, getLength())); setIndex(x); return x; } /** * Moves the current position by the number of code points specified, either forward or backward depending on the * sign of delta (positive or negative respectively). If the current index is at a trail surrogate then the first * adjustment is by code unit, and the remaining adjustments are by code points. If the resulting index would be * less than zero, the index is set to zero, and if the resulting index would be greater than limit, the index is * set to limit. * * @param delta * the number of code units to move the current index. * @return the new index * @exception IndexOutOfBoundsException * is thrown if an invalid delta is supplied */ public int moveCodePointIndex(int delta) { if (delta > 0) { while (delta > 0 && nextCodePoint() != DONE) { delta--; } } else { while (delta < 0 && previousCodePoint() != DONE) { delta++; } } if (delta != 0) { throw new IndexOutOfBoundsException(); } return getIndex(); } /** * Creates a copy of this iterator, independent from other iterators. If it is not possible to clone the iterator, * returns null. * * @return copy of this iterator */ @Override public Object clone() throws CloneNotSupportedException { return super.clone(); } }