src.org.codehaus.jackson.util.TextBuffer Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of worldwind Show documentation
Show all versions of worldwind Show documentation
World Wind is a collection of components that interactively display 3D geographic information within Java applications or applets.
package org.codehaus.jackson.util;
import java.math.BigDecimal;
import java.util.ArrayList;
/**
* TextBuffer is a class similar to {@link StringBuffer}, with
* following differences:
*
* - TextBuffer uses segments character arrays, to avoid having
* to do additional array copies when array is not big enough.
* This means that only reallocating that is necessary is done only once:
* if and when caller
* wants to access contents in a linear array (char[], String).
*
* - TextBuffer can also be initialized in "shared mode", in which
* it will just act as a wrapper to a single char array managed
* by another object (like parser that owns it)
*
* - TextBuffer is not synchronized.
*
*
*/
public final class TextBuffer
{
final static char[] NO_CHARS = new char[0];
/**
* Let's limit maximum segment length to something sensible
* like 256k
*/
final static int MAX_SEGMENT_LEN = 0x40000;
/*
//////////////////////////////
// Configuration:
//////////////////////////////
*/
private final BufferRecycler _allocator;
/*
//////////////////////////////
// Shared input buffers
//////////////////////////////
*/
/**
* Shared input buffer; stored here in case some input can be returned
* as is, without being copied to collector's own buffers. Note that
* this is read-only for this Object.
*/
private char[] _inputBuffer;
/**
* Character offset of first char in input buffer; -1 to indicate
* that input buffer currently does not contain any useful char data
*/
private int _inputStart;
private int _inputLen;
/*
//////////////////////////////////////////////////
// Aggregation segments (when not using input buf)
//////////////////////////////////////////////////
*/
/**
* List of segments prior to currently active segment.
*/
private ArrayList _segments;
/**
* Flag that indicates whether _seqments is non-empty
*/
private boolean _hasSegments = false;
// // // Currently used segment; not (yet) contained in _seqments
/**
* Amount of characters in segments in {@link _segments}
*/
private int _segmentSize;
private char[] _currentSegment;
/**
* Number of characters in currently active (last) segment
*/
private int _currentSize;
/*
//////////////////////////////////////////////////
// Caching of results
//////////////////////////////////////////////////
*/
/**
* String that will be constructed when the whole contents are
* needed; will be temporarily stored in case asked for again.
*/
private String _resultString;
private char[] _resultArray;
/*
//////////////////////////////////////////////
// Life-cycle
//////////////////////////////////////////////
*/
public TextBuffer(BufferRecycler allocator)
{
_allocator = allocator;
}
/**
* Method called to indicate that the underlying buffers should now
* be recycled if they haven't yet been recycled. Although caller
* can still use this text buffer, it is not advisable to call this
* method if that is likely, since next time a buffer is needed,
* buffers need to reallocated.
* Note: calling this method automatically also clears contents
* of the buffer.
*/
public void releaseBuffers()
{
if (_allocator != null && _currentSegment != null) {
// First, let's get rid of all but the largest char array
resetWithEmpty();
// And then return that array
char[] buf = _currentSegment;
_currentSegment = null;
_allocator.releaseCharBuffer(BufferRecycler.CharBufferType.TEXT_BUFFER, buf);
}
}
/**
* Method called to clear out any content text buffer may have, and
* initializes buffer to use non-shared data.
*/
public void resetWithEmpty()
{
_inputBuffer = null;
_inputStart = -1; // indicates shared buffer not used
_inputLen = 0;
_resultString = null;
_resultArray = null;
// And then reset internal input buffers, if necessary:
if (_hasSegments) {
clearSegments();
}
_currentSize = 0;
}
/**
* Method called to initialize the buffer with a shared copy of data;
* this means that buffer will just have pointers to actual data. It
* also means that if anything is to be appended to the buffer, it
* will first have to unshare it (make a local copy).
*/
public void resetWithShared(char[] buf, int start, int len)
{
// First, let's clear intermediate values, if any:
_resultString = null;
_resultArray = null;
// Then let's mark things we need about input buffer
_inputBuffer = buf;
_inputStart = start;
_inputLen = len;
// And then reset internal input buffers, if necessary:
if (_hasSegments) {
clearSegments();
}
}
public void resetWithCopy(char[] buf, int start, int len)
{
_inputBuffer = null;
_inputStart = -1; // indicates shared buffer not used
_inputLen = 0;
_resultString = null;
_resultArray = null;
// And then reset internal input buffers, if necessary:
if (_hasSegments) {
clearSegments();
} else if (_currentSegment == null) {
_currentSegment = findBuffer(len);
}
_currentSize = _segmentSize = 0;
append(buf, start, len);
}
/**
* Helper method used to find a buffer to use, ideally one
* recycled earlier.
*/
private final char[] findBuffer(int needed)
{
return _allocator.allocCharBuffer(BufferRecycler.CharBufferType.TEXT_BUFFER, needed);
}
private final void clearSegments()
{
_hasSegments = false;
/* Let's start using _last_ segment from list; for one, it's
* the biggest one, and it's also most likely to be cached
*/
/* 28-Aug-2009, tatu: Actually, the current segment should
* be the biggest one, already
*/
//_currentSegment = _segments.get(_segments.size() - 1);
_segments.clear();
_currentSize = _segmentSize = 0;
}
/*
//////////////////////////////////////////////
// Accessors for implementing public interface
//////////////////////////////////////////////
*/
/**
* @return Number of characters currently stored by this collector
*/
public int size() {
if (_inputStart >= 0) { // shared copy from input buf
return _inputLen;
}
// local segmented buffers
return _segmentSize + _currentSize;
}
public int getTextOffset()
{
/* Only shared input buffer can have non-zero offset; buffer
* segments start at 0, and if we have to create a combo buffer,
* that too will start from beginning of the buffer
*/
return (_inputStart >= 0) ? _inputStart : 0;
}
public char[] getTextBuffer()
{
// Are we just using shared input buffer?
if (_inputStart >= 0) {
return _inputBuffer;
}
// Nope; but does it fit in just one segment?
if (!_hasSegments) {
return _currentSegment;
}
// Nope, need to have/create a non-segmented array and return it
return contentsAsArray();
}
/*
//////////////////////////////////////////////
// Other accessors:
//////////////////////////////////////////////
*/
public String contentsAsString()
{
if (_resultString == null) {
// Has array been requested? Can make a shortcut, if so:
if (_resultArray != null) {
_resultString = new String(_resultArray);
} else {
// Do we use shared array?
if (_inputStart >= 0) {
if (_inputLen < 1) {
return (_resultString = "");
}
_resultString = new String(_inputBuffer, _inputStart, _inputLen);
} else { // nope... need to copy
// But first, let's see if we have just one buffer
int segLen = _segmentSize;
int currLen = _currentSize;
if (segLen == 0) { // yup
_resultString = (currLen == 0) ? "" : new String(_currentSegment, 0, currLen);
} else { // no, need to combine
StringBuilder sb = new StringBuilder(segLen + currLen);
// First stored segments
if (_segments != null) {
for (int i = 0, len = _segments.size(); i < len; ++i) {
char[] curr = _segments.get(i);
sb.append(curr, 0, curr.length);
}
}
// And finally, current segment:
sb.append(_currentSegment, 0, _currentSize);
_resultString = sb.toString();
}
}
}
}
return _resultString;
}
public char[] contentsAsArray()
{
char[] result = _resultArray;
if (result == null) {
_resultArray = result = buildResultArray();
}
return result;
}
/**
* Convenience method for converting contents of the buffer
* into a {@link BigDecimal}.
*/
public BigDecimal contentsAsDecimal()
throws NumberFormatException
{
// Already got a pre-cut array?
if (_resultArray != null) {
return new BigDecimal(_resultArray);
}
// Or a shared buffer?
if (_inputStart >= 0) {
return new BigDecimal(_inputBuffer, _inputStart, _inputLen);
}
// Or if not, just a single buffer (the usual case)
if (_segmentSize == 0) {
return new BigDecimal(_currentSegment, 0, _currentSize);
}
// If not, let's just get it aggregated...
return new BigDecimal(contentsAsArray());
}
/**
* Convenience method for converting contents of the buffer
* into a Double value.
*/
public double contentsAsDouble()
throws NumberFormatException
{
return Double.parseDouble(contentsAsString());
}
/*
//////////////////////////////////////////////
// Public mutators:
//////////////////////////////////////////////
*/
/**
* Method called to make sure that buffer is not using shared input
* buffer; if it is, it will copy such contents to private buffer.
*/
public void ensureNotShared() {
if (_inputStart >= 0) {
unshare(16);
}
}
public void append(char c) {
// Using shared buffer so far?
if (_inputStart >= 0) {
unshare(16);
}
_resultString = null;
_resultArray = null;
// Room in current segment?
char[] curr = _currentSegment;
if (_currentSize >= curr.length) {
expand(1);
curr = _currentSegment;
}
curr[_currentSize++] = c;
}
public void append(char[] c, int start, int len)
{
// Can't append to shared buf (sanity check)
if (_inputStart >= 0) {
unshare(len);
}
_resultString = null;
_resultArray = null;
// Room in current segment?
char[] curr = _currentSegment;
int max = curr.length - _currentSize;
if (max >= len) {
System.arraycopy(c, start, curr, _currentSize, len);
_currentSize += len;
} else {
// No room for all, need to copy part(s):
if (max > 0) {
System.arraycopy(c, start, curr, _currentSize, max);
start += max;
len -= max;
}
// And then allocate new segment; we are guaranteed to now
// have enough room in segment.
expand(len); // note: curr != _currentSegment after this
System.arraycopy(c, start, _currentSegment, 0, len);
_currentSize = len;
}
}
public void append(String str, int offset, int len)
{
// Can't append to shared buf (sanity check)
if (_inputStart >= 0) {
unshare(len);
}
_resultString = null;
_resultArray = null;
// Room in current segment?
char[] curr = _currentSegment;
int max = curr.length - _currentSize;
if (max >= len) {
str.getChars(offset, offset+len, curr, _currentSize);
_currentSize += len;
} else {
// No room for all, need to copy part(s):
if (max > 0) {
str.getChars(offset, offset+max, curr, _currentSize);
len -= max;
offset += max;
}
/* And then allocate new segment; we are guaranteed to now
* have enough room in segment.
*/
expand(len);
str.getChars(offset, offset+len, _currentSegment, 0);
_currentSize = len;
}
}
/*
//////////////////////////////////////////////
// Raw access, for high-performance use:
//////////////////////////////////////////////
*/
public char[] getCurrentSegment()
{
/* Since the intention of the caller is to directly add stuff into
* buffers, we should NOT have anything in shared buffer... ie. may
* need to unshare contents.
*/
if (_inputStart >= 0) {
unshare(1);
} else {
char[] curr = _currentSegment;
if (curr == null) {
_currentSegment = findBuffer(0);
} else if (_currentSize >= curr.length) {
// Plus, we better have room for at least one more char
expand(1);
}
}
return _currentSegment;
}
public char[] emptyAndGetCurrentSegment()
{
resetWithEmpty();
char[] curr = _currentSegment;
if (curr == null) {
_currentSegment = curr = findBuffer(0);
}
return curr;
}
public int getCurrentSegmentSize() {
return _currentSize;
}
public void setCurrentLength(int len) {
_currentSize = len;
}
public char[] finishCurrentSegment()
{
if (_segments == null) {
_segments = new ArrayList();
}
_hasSegments = true;
_segments.add(_currentSegment);
int oldLen = _currentSegment.length;
_segmentSize += oldLen;
// Let's grow segments by 50%
int newLen = Math.min(oldLen + (oldLen >> 1), MAX_SEGMENT_LEN);
char[] curr = _charArray(newLen);
_currentSize = 0;
_currentSegment = curr;
return curr;
}
/**
* Method called to expand size of the current segment, to
* accomodate for more contiguous content. Usually only
* used when parsing tokens like names.
*/
public char[] expandCurrentSegment()
{
char[] curr = _currentSegment;
// Let's grow by 50%
int len = curr.length;
// Must grow by at least 1 char, no matter what
int newLen = (len == MAX_SEGMENT_LEN) ?
(MAX_SEGMENT_LEN + 1) : Math.min(MAX_SEGMENT_LEN, len + (len >> 1));
_currentSegment = _charArray(newLen);
System.arraycopy(curr, 0, _currentSegment, 0, len);
return _currentSegment;
}
/*
//////////////////////////////////////////////
// Standard methods:
//////////////////////////////////////////////
*/
/**
* Note: calling this method may not be as efficient as calling
* {@link #contentsAsString}, since it's not guaranteed that resulting
* String is cached.
*/
@Override
public String toString() {
return contentsAsString();
}
/*
//////////////////////////////////////////////
// Internal methods:
//////////////////////////////////////////////
*/
/**
* Method called if/when we need to append content when we have been
* initialized to use shared buffer.
*/
private void unshare(int needExtra)
{
int sharedLen = _inputLen;
_inputLen = 0;
char[] inputBuf = _inputBuffer;
_inputBuffer = null;
int start = _inputStart;
_inputStart = -1;
// Is buffer big enough, or do we need to reallocate?
int needed = sharedLen+needExtra;
if (_currentSegment == null || needed > _currentSegment.length) {
_currentSegment = findBuffer(needed);
}
if (sharedLen > 0) {
System.arraycopy(inputBuf, start, _currentSegment, 0, sharedLen);
}
_segmentSize = 0;
_currentSize = sharedLen;
}
/**
* Method called when current segment is full, to allocate new
* segment.
*/
private void expand(int minNewSegmentSize)
{
// First, let's move current segment to segment list:
if (_segments == null) {
_segments = new ArrayList();
}
char[] curr = _currentSegment;
_hasSegments = true;
_segments.add(curr);
_segmentSize += curr.length;
int oldLen = curr.length;
// Let's grow segments by 50% minimum
int sizeAddition = oldLen >> 1;
if (sizeAddition < minNewSegmentSize) {
sizeAddition = minNewSegmentSize;
}
curr = _charArray(Math.min(MAX_SEGMENT_LEN, oldLen + sizeAddition));
_currentSize = 0;
_currentSegment = curr;
}
private char[] buildResultArray()
{
if (_resultString != null) { // Can take a shortcut...
return _resultString.toCharArray();
}
char[] result;
// Do we use shared array?
if (_inputStart >= 0) {
if (_inputLen < 1) {
return NO_CHARS;
}
result = _charArray(_inputLen);
System.arraycopy(_inputBuffer, _inputStart, result, 0,
_inputLen);
} else { // nope
int size = size();
if (size < 1) {
return NO_CHARS;
}
int offset = 0;
result = _charArray(size);
if (_segments != null) {
for (int i = 0, len = _segments.size(); i < len; ++i) {
char[] curr = (char[]) _segments.get(i);
int currLen = curr.length;
System.arraycopy(curr, 0, result, offset, currLen);
offset += currLen;
}
}
System.arraycopy(_currentSegment, 0, result, offset, _currentSize);
}
return result;
}
private final char[] _charArray(int len) {
return new char[len];
}
}