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Jericho HTML Parser is a java library allowing analysis and manipulation of parts of an HTML document, including server-side tags, while reproducing verbatim any unrecognised or invalid HTML.

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// Jericho HTML Parser - Java based library for analysing and manipulating HTML
// Version 3.1
// Copyright (C) 2004-2009 Martin Jericho
// http://jericho.htmlparser.net/
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of either one of the following licences:
//
// 1. The Eclipse Public License (EPL) version 1.0,
// included in this distribution in the file licence-epl-1.0.html
// or available at http://www.eclipse.org/legal/epl-v10.html
//
// 2. The GNU Lesser General Public License (LGPL) version 2.1 or later,
// included in this distribution in the file licence-lgpl-2.1.txt
// or available at http://www.gnu.org/licenses/lgpl.txt
//
// This library is distributed on an "AS IS" basis,
// WITHOUT WARRANTY OF ANY KIND, either express or implied.
// See the individual licence texts for more details.

package net.htmlparser.jericho;

import java.io.*;
import java.nio.*;

/**
 * Implements a buffered window into a stream of characters.
 * 

* Unless the buffer is explicitly {@linkplain #setBuffer(char[]) set}, it expands automatically as further characters are fetched from the stream. *

* The {@link #setMinRequiredBufferBegin(int)} method can be used to inform the StreamedText object that characters up to a specified * position are no longer required, allowing more characters to be fetched without the need to increase the buffer size. */ final class StreamedText implements CharSequence { private final Reader reader; private char[] buffer; private boolean expandableBuffer; private int bufferBegin=0; // the current position of the first byte of the buffer. all text before it has been discarded. private int readerPos=0; // the next position into which text will be loaded from the reader stream. must be >=bufferBegin and <=bufferBegin+buffer.length, except if one of the "text" argument constructors was used, in which case =Integer.MAX_VALUE. private int minRequiredBufferBegin=0; // the minimum pos that must be kept in buffer. always >=bufferBegin. private int end=Integer.MAX_VALUE; public static int INITIAL_EXPANDABLE_BUFFER_SIZE=8192; // same default as StAX public StreamedText(final Reader reader, final char[] buffer) { this.reader=reader; setBuffer(buffer); } public StreamedText(final Reader reader) { this(reader,null); } private StreamedText(final char[] text, final int length) { reader=null; buffer=text; expandableBuffer=false; end=length; readerPos=Integer.MAX_VALUE; } public StreamedText(final char[] text) { this(text,text.length); } public StreamedText(final CharBuffer text) { this(text.array(),text.length()); } public StreamedText(final CharSequence text) { this(toCharArray(text)); } public StreamedText setBuffer(char[] buffer) { if (buffer!=null) { this.buffer=buffer; expandableBuffer=false; } else { this.buffer=new char[INITIAL_EXPANDABLE_BUFFER_SIZE]; expandableBuffer=true; } return this; } public boolean hasExpandableBuffer() { return expandableBuffer; } /** * Returns the character at the specified index. * @param index the index of the character. * @return the character at the specified index. */ public char charAt(final int pos) { if (pos>=readerPos) readToPosition(pos); checkPos(pos); return buffer[pos-bufferBegin]; } public void setMinRequiredBufferBegin(final int minRequiredBufferBegin) { if (minRequiredBufferBegin * This method returns Integer.MAX_VALUE until an attempt is made to access a position past the end of the stream. * * @return the length of the text stream. */ public int length() { if (end==Integer.MAX_VALUE) throw new IllegalStateException("Length of streamed text cannot be determined until end of file has been reached"); return end; } public int getEnd() { return end; } private void prepareBufferRange(final int begin, final int end) { final int lastRequiredPos=end-1; if (lastRequiredPos>readerPos) readToPosition(lastRequiredPos); checkPos(begin); if (end>this.end) throw new IndexOutOfBoundsException(); } public void writeTo(final Writer writer, final int begin, final int end) throws IOException { prepareBufferRange(begin,end); writer.write(buffer,begin-bufferBegin,end-begin); } /** * Returns a new string that is a substring of this text. *

* The substring begins at the specified begin position and extends to the character at position end - 1. * Thus the length of the substring is end-begin. * * @param begin the begin position, inclusive. * @param end the end position, exclusive. * @return a new string that is a substring of this text. */ public String substring(final int begin, final int end) { prepareBufferRange(begin,end); return new String(buffer,begin-bufferBegin,end-begin); } /** * Returns a new character sequence that is a subsequence of this sequence. *

* The returned CharSequence is only guaranteed to be valid as long as no futher operations are performed on this StreamedText object. * Any subsequent method call could invalidate the underlying buffer used by the CharSequence. * * @param begin the begin position, inclusive. * @param end the end position, exclusive. * @return a new character sequence that is a subsequence of this sequence. */ public CharSequence subSequence(final int begin, final int end) { // This has not been benchmarked. It is possible that returning substring(begin,end) results in faster code even though it requires more memory allocation. return getCharBuffer(begin,end); } public CharBuffer getCharBuffer(final int begin, final int end) { prepareBufferRange(begin,end); return CharBuffer.wrap(buffer,begin-bufferBegin,end-begin); } public String toString() { throw new UnsupportedOperationException("Streamed text can not be converted to a string"); } public String getDebugInfo() { return "Buffer size: \""+buffer.length+"\", bufferBegin="+bufferBegin+", minRequiredBufferBegin="+minRequiredBufferBegin+", readerPos="+readerPos; } public char[] getBuffer() { return buffer; } public int getBufferBegin() { return bufferBegin; } private void checkPos(final int pos) { // hopefully inlined by the compiler if (pos=end) throw new IndexOutOfBoundsException(); } public int getBufferOverflowPosition() { return minRequiredBufferBegin+buffer.length; } private void readToPosition(final int pos) { try { if (pos>=bufferBegin+buffer.length) { if (pos>=minRequiredBufferBegin+buffer.length) { if (!expandableBuffer) throw new BufferOverflowException(); // unfortunately BufferOverflowException doesn't accept a message argument, otherwise it would include the message "StreamedText buffer too small to keep positions "+minRequiredBufferBegin+" and "+pos+" simultaneously" expandBuffer(pos-minRequiredBufferBegin+1); } discardUsedText(); } while (readerPos<=pos) { final int charCount=reader.read(buffer,readerPos-bufferBegin,bufferBegin+buffer.length-readerPos); if (charCount==-1) { end=readerPos; break; } readerPos+=charCount; } } catch (IOException ex) { throw new RuntimeException(ex); } } private void expandBuffer(final int minSize) throws IOException { int newSize=buffer.length*2; if (newSize





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