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/**
* Copyright (C) 2006-2015 phloc systems
* http://www.phloc.com
* office[at]phloc[dot]com
*
* 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 com.phloc.commons.charset;
import java.nio.ByteBuffer;
import java.nio.CharBuffer;
import java.nio.charset.Charset;
import java.nio.charset.CharsetDecoder;
import java.nio.charset.CoderResult;
import java.nio.charset.CodingErrorAction;
import javax.annotation.Nonnegative;
import javax.annotation.Nonnull;
import javax.annotation.concurrent.NotThreadSafe;
import com.phloc.commons.ValueEnforcer;
/**
* A special string decoder that can be used to convert a byte source to a
* String in a certain charset. This class is not thread-safe!
*
* @author Philip Helger
*/
@NotThreadSafe
public final class StringDecoder
{
public static final int INITIAL_BUFFER_SIZE = 1024;
private static final int SIZE_ALIGNMENT_BITS = 10; // = 1024
private static final int SIZE_ALIGNMENT = 1 << SIZE_ALIGNMENT_BITS;
private static final int SIZE_ALIGNMENT_MASK = (1 << SIZE_ALIGNMENT_BITS) - 1;
private final CharsetDecoder m_aDecoder;
private CharBuffer m_aBuffer = CharBuffer.allocate (INITIAL_BUFFER_SIZE);
public StringDecoder (@Nonnull final Charset aCharset)
{
ValueEnforcer.notNull (aCharset, "Charset");
this.m_aDecoder = aCharset.newDecoder ();
this.m_aDecoder.onMalformedInput (CodingErrorAction.REPLACE);
}
/**
* Reserve space for the next string that will be <= expectedLength
* characters long. Must only be called when the buffer is empty.
*
* @param nExpectedLength
* The number of chars to reserve. Must be ≥ 0.
*/
public void reserve (@Nonnegative final int nExpectedLength)
{
ValueEnforcer.isGE0 (nExpectedLength, "ExpectedLength");
if (this.m_aBuffer.position () != 0)
throw new IllegalStateException ("cannot be called except after finish()");
if (nExpectedLength > this.m_aBuffer.capacity ())
{
// Allocate a temporary buffer large enough for this string rounded up
int nDesiredLength = nExpectedLength;
if ((nDesiredLength & SIZE_ALIGNMENT_MASK) != 0)
{
// round up
nDesiredLength = (nExpectedLength + SIZE_ALIGNMENT) & ~SIZE_ALIGNMENT_MASK;
}
assert nDesiredLength % SIZE_ALIGNMENT == 0;
this.m_aBuffer = CharBuffer.allocate (nDesiredLength);
}
assert this.m_aBuffer.position () == 0;
assert nExpectedLength <= this.m_aBuffer.capacity ();
}
private void _decode (@Nonnull final ByteBuffer aByteBuffer, final boolean bEndOfInput)
{
// Call decode at least once to pass the endOfInput signal through
do
{
final CoderResult aResult = this.m_aDecoder.decode (aByteBuffer, this.m_aBuffer, bEndOfInput);
if (aResult != CoderResult.UNDERFLOW)
{
// Error handling
if (aResult == CoderResult.OVERFLOW)
{
// double the buffer size and retry
final CharBuffer aNewBuffer = CharBuffer.allocate (this.m_aBuffer.capacity () * 2);
System.arraycopy (this.m_aBuffer.array (), 0, aNewBuffer.array (), 0, this.m_aBuffer.position ());
aNewBuffer.position (this.m_aBuffer.position ());
assert aNewBuffer.remaining () >= this.m_aBuffer.capacity ();
this.m_aBuffer = aNewBuffer;
}
else
{
// We disable errors in the constructor (replace instead)
assert false;
// TODO: Are there any unmappable sequences for UTF-8?
assert aResult.isMalformed ();
}
}
} while (aByteBuffer.hasRemaining ());
assert !aByteBuffer.hasRemaining ();
}
public void decode (@Nonnull final byte [] aBuf)
{
ValueEnforcer.notNull (aBuf, "Buffer");
_decode (ByteBuffer.wrap (aBuf, 0, aBuf.length), false);
}
public void decode (@Nonnull final byte [] aBuffer, @Nonnegative final int nOfs, @Nonnegative final int nLen)
{
ValueEnforcer.isArrayOfsLen (aBuffer, nOfs, nLen);
_decode (ByteBuffer.wrap (aBuffer, nOfs, nLen), false);
}
public void decode (@Nonnull final ByteBuffer aByteBuffer)
{
ValueEnforcer.notNull (aByteBuffer, "ByteBuffer");
_decode (aByteBuffer, false);
}
@Nonnull
public String finish (@Nonnull final byte [] aBuf, @Nonnegative final int nOfs, @Nonnegative final int nLen)
{
return finish (ByteBuffer.wrap (aBuf, nOfs, nLen));
}
@Nonnull
public String finish (@Nonnull final ByteBuffer aByteBuffer)
{
ValueEnforcer.notNull (aByteBuffer, "ByteBuffer");
_decode (aByteBuffer, true);
final CoderResult aResult = this.m_aDecoder.flush (this.m_aBuffer);
if (aResult == CoderResult.OVERFLOW)
throw new IllegalStateException ("TODO: Handle overflow?");
if (aResult != CoderResult.UNDERFLOW)
throw new IllegalStateException ("TODO: Handle errors?");
// Copy out the string
final String sRet = new String (this.m_aBuffer.array (), 0, this.m_aBuffer.position ());
// Reset for the next string
this.m_aBuffer.clear ();
this.m_aDecoder.reset ();
return sRet;
}
}
