/* ************************************************************************
#
# DivConq
#
# http://divconq.com/
#
# Copyright:
# Copyright 2014 eTimeline, LLC. All rights reserved.
#
# License:
# See the license.txt file in the project's top-level directory for details.
#
# Authors:
# * Andy White
#
************************************************************************ */
/*
* ParseBuffer.java February 2001
*
* Copyright (C) 2001, Niall Gallagher <niallg@users.sf.net>
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
* implied. See the License for the specific language governing
* permissions and limitations under the License.
*/
package divconq.www.util.parse;
/**
* This is primarily used to replace the <code>StringBuffer</code>
* class, as a way for the <code>Parser</code> to store the char's
* for a specific region within the parse data that constitutes a
* desired value. The methods are not synchronized so it enables
* the <code>char</code>'s to be taken quicker than the
* <code>StringBuffer</code> class.
*
* @author Niall Gallagher
*/
public class ParseBuffer {
/**
* This is used to quicken <code>toString</code>.
*/
protected String cache;
/**
* The <code>char</code>'s this buffer accumulated.
*/
protected char[] buf;
/**
* This is the number of <code>char</code>'s stored.
*/
protected int count;
/**
* Constructor for <code>ParseBuffer</code>. The default
* <code>ParseBuffer</code> stores 16 <code>char</code>'s
* before a <code>resize</code> is needed to accommodate
* extra characters.
*/
public ParseBuffer(){
this(16);
}
/**
* This creates a <code>ParseBuffer</code> with a specific
* default size. The buffer will be created the with the
* length specified. The <code>ParseBuffer</code> can grow
* to accommodate a collection of <code>char</code>'s larger
* the the size specified.
*
* @param size initial size of this <code>ParseBuffer</code>
*/
public ParseBuffer(int size){
this.buf = new char[size];
}
/**
* This will add a <code>char</code> to the end of the buffer.
* The buffer will not overflow with repeated uses of the
* <code>append</code>, it uses an <code>ensureCapacity</code>
* method which will allow the buffer to dynamically grow in
* size to accommodate more <code>char</code>'s.
*
* @param c the <code>char</code> to be appended
*/
public void append(char c){
ensureCapacity(count+ 1);
buf[count++] = c;
}
/**
* This will add a <code>String</code> to the end of the buffer.
* The buffer will not overflow with repeated uses of the
* <code>append</code>, it uses an <code>ensureCapacity</code>
* method which will allow the buffer to dynamically grow in
* size to accommodate large <code>String</code> objects.
*
* @param text the <code>String</code> to be appended to this
*/
public void append(String text){
ensureCapacity(count+ text.length());
text.getChars(0,text.length(),buf,count);
count += text.length();
}
/**
* This will reset the buffer in such a way that the buffer is
* cleared of all contents and then has the given string appended.
* This is used when a value is to be set into the buffer value.
* See the <code>append(String)</code> method for reference.
*
* @param text this is the text that is to be appended to this
*/
public void reset(String text) {
clear();
append(text);
}
/**
* This will add a <code>ParseBuffer</code> to the end of this.
* The buffer will not overflow with repeated uses of the
* <code>append</code>, it uses an <code>ensureCapacity</code>
* method which will allow the buffer to dynamically grow in
* size to accommodate large <code>ParseBuffer</code> objects.
*
* @param text the <code>ParseBuffer</code> to be appended
*/
public void append(ParseBuffer text){
append(text.buf, 0, text.count);
}
/**
* This will reset the buffer in such a way that the buffer is
* cleared of all contents and then has the given string appended.
* This is used when a value is to be set into the buffer value.
* See the <code>append(ParseBuffer)</code> method for reference.
*
* @param text this is the text that is to be appended to this
*/
public void reset(ParseBuffer text) {
clear();
append(text);
}
/**
* This will add a <code>char</code> to the end of the buffer.
* The buffer will not overflow with repeated uses of the
* <code>append</code>, it uses an <code>ensureCapacity</code>
* method which will allow the buffer to dynamically grow in
* size to accommodate large <code>char</code> arrays.
*
* @param c the <code>char</code> array to be appended to this
* @param off the read offset for the array
* @param len the number of <code>char</code>'s to add
*/
public void append(char[] c, int off, int len){
ensureCapacity(count+ len);
System.arraycopy(c,off,buf,count,len);
count+=len;
}
/**
* This will add a <code>String</code> to the end of the buffer.
* The buffer will not overflow with repeated uses of the
* <code>append</code>, it uses an <code>ensureCapacity</code>
* method which will allow the buffer to dynamically grow in
* size to accommodate large <code>String</code> objects.
*
* @param str the <code>String</code> to be appended to this
* @param off the read offset for the <code>String</code>
* @param len the number of <code>char</code>'s to add
*/
public void append(String str, int off, int len){
ensureCapacity(count+ len);
str.getChars(off,len,buf,count);
count += len;
}
/**
* This will add a <code>ParseBuffer</code> to the end of this.
* The buffer will not overflow with repeated uses of the
* <code>append</code>, it uses an <code>ensureCapacity</code>
* method which will allow the buffer to dynamically grow in
* size to accommodate large <code>ParseBuffer</code> objects.
*
* @param text the <code>ParseBuffer</code> to be appended
* @param off the read offset for the <code>ParseBuffer</code>
* @param len the number of <code>char</code>'s to add
*/
public void append(ParseBuffer text, int off, int len){
append(text.buf, off, len);
}
/**
* This ensure that there is enough space in the buffer to
* allow for more <code>char</code>'s to be added. If
* the buffer is already larger than min then the buffer
* will not be expanded at all.
*
* @param min the minimum size needed
*/
protected void ensureCapacity(int min) {
if(buf.length < min) {
int size = buf.length * 2;
int max = Math.max(min, size);
char[] temp = new char[max];
System.arraycopy(buf, 0, temp, 0, count);
buf = temp;
}
}
/**
* This will empty the <code>ParseBuffer</code> so that the
* <code>toString</code> parameter will return <code>null</code>.
* This is used so that the same <code>ParseBuffer</code> can be
* recycled for different tokens.
*/
public void clear(){
cache = null;
count = 0;
}
/**
* This will return the number of bytes that have been appended
* to the <code>ParseBuffer</code>. This will return zero after
* the clear method has been invoked.
*
* @return the number of <code>char</code>'s within the buffer
*/
public int length(){
return count;
}
/**
* This will return the characters that have been appended to the
* <code>ParseBuffer</code> as a <code>String</code> object.
* If the <code>String</code> object has been created before then
* a cached <code>String</code> object will be returned. This
* method will return <code>null</code> after clear is invoked.
*
* @return the <code>char</code>'s appended as a <code>String</code>
*/
public String toString(){
if(count <= 0) {
return null;
}
if(cache != null) {
return cache;
}
cache = new String(buf,0,count);
return cache;
}
}