jj2000.j2k.entropy.decoder

Class MQDecoder

java.lang.Object

jj2000.j2k.entropy.decoder.MQDecoder

public class MQDecoder
extends java.lang.Object

This class implements the MQ arithmetic decoder. It is implemented using the software conventions decoder for better performance (i.e. execution time performance). The initial states for each context of the MQ-coder are specified in the constructor.

Constructor Summary

Constructors

Constructor and Description
MQDecoder(ByteInputBuffer iStream, int nrOfContexts, int[] initStates) Instantiates a new MQ-decoder, with the specified number of contexts and initial states.

Method Summary

Methods

Modifier and Type	Method and Description
boolean	checkPredTerm() Checks for past errors in the decoding process using the predictable error resilient termination.
int	decodeSymbol(int context) Arithmetically decodes one symbol from the bit stream with the given context and returns its decoded value.
void	decodeSymbols(int[] bits, int[] cX, int n) This function performs the arithmetic decoding.
boolean	fastDecodeSymbols(int[] bits, int ctxt, int n) Decodes 'n' symbols from the bit stream using the same context 'ctxt'.
ByteInputBuffer	getByteInputBuffer() Returns the underlying 'ByteInputBuffer' from where the MQ coded input bytes are read.
int	getNumCtxts() Returns the number of contexts in the arithmetic coder.
void	nextSegment(byte[] buf, int off, int len) Resets the MQ decoder to start a new segment.
void	resetCtxt(int c) Resets a context to the original probability distribution.
void	resetCtxts() Resets a context to the original probability distribution.

Methods inherited from class java.lang.Object

clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

Constructor Detail

MQDecoder

public MQDecoder(ByteInputBuffer iStream,
         int nrOfContexts,
         int[] initStates)

Instantiates a new MQ-decoder, with the specified number of contexts and initial states. The compressed bytestream is read from the 'iStream' object.

Parameters:

iStream - the stream that contains the coded bits

nrOfContexts - The number of contexts used

initStates - The initial state for each context. A reference is kept to this array to reinitialize the contexts whenever 'reset()' or 'resetCtxts()' is called.

Method Detail

fastDecodeSymbols

public final boolean fastDecodeSymbols(int[] bits,
                        int ctxt,
                        int n)

Decodes 'n' symbols from the bit stream using the same context 'ctxt'. If possible the MQ-coder speedup mode will be used to speed up decoding. The speedup mode is used if Q (the LPS probability for 'ctxt' is low enough) and the A and C registers permit decoding several MPS symbols without renormalization.

Speedup mode should be used when decoding long runs of MPS with high probability with the same context.

This methiod will return the decoded symbols differently if speedup mode was used or not. If true is returned, then speedup mode was used and the 'n' decoded symbols are all the same and it is returned ain bits[0] only. If false is returned then speedup mode was not used, the decoded symbols are probably not all the same and they are returned in bits[0], bits[1], ... bits[n-1].

Parameters:

bits - The array where to put the decoded symbols. Must be of length 'n' or more.

ctxt - The context to use in decoding the symbols.

n - The number of symbols to decode.

Returns:

True if speedup mode was used, false if not. If speedup mode was used then all the decoded symbols are the same and its value is returned in 'bits[0]' only (not in bits[1], bits[2], etc.).

decodeSymbols

public final void decodeSymbols(int[] bits,
                 int[] cX,
                 int n)

This function performs the arithmetic decoding. The function receives an array in which to put the decoded symbols and an array of contexts with which to decode them.

Each context has a current MPS and an index describing what the current probability is for the LPS. Each bit is decoded and if the probability of the LPS exceeds .5, the MPS and LPS are switched.

Parameters:

bits - The array where to place the decoded symbols. It should be long enough to contain 'n' elements.

cX - The context to use in decoding each symbol.

n - The number of symbols to decode

decodeSymbol

public final int decodeSymbol(int context)

Arithmetically decodes one symbol from the bit stream with the given context and returns its decoded value.

Each context has a current MPS and an index describing what the current probability is for the LPS. Each bit is encoded and if the probability of the LPS exceeds .5, the MPS and LPS are switched.

Parameters:

context - The context to use in decoding the symbol

Returns:

The decoded symbol, 0 or 1.

checkPredTerm

public boolean checkPredTerm()

Checks for past errors in the decoding process using the predictable error resilient termination. This works only if the encoder used the predictable error resilient MQ termination, otherwise it reports wrong results. If an error is detected it means that the MQ bit stream has been wrongly decoded or that the MQ terminated segment length is too long. If no errors are detected it does not necessarily mean that the MQ bit stream has been correctly decoded.

Returns:

True if errors are found, false otherwise.

getNumCtxts

public final int getNumCtxts()

Returns the number of contexts in the arithmetic coder.

Returns:

The number of contexts

resetCtxt

public final void resetCtxt(int c)

Resets a context to the original probability distribution.

Parameters:

c - The number of the context (it starts at 0).

resetCtxts

public final void resetCtxts()

Resets a context to the original probability distribution. The original probability distribution depends on the actual implementation of the arithmetic coder or decoder.

Parameters:

c - The index of the context (it starts at 0).

nextSegment

public final void nextSegment(byte[] buf,
               int off,
               int len)

Resets the MQ decoder to start a new segment. This is like recreating a new MQDecoder object with new input data.

Parameters:

buf - The byte array containing the MQ encoded data. If null the current byte array is assumed.

off - The index of the first element in 'buf' to be decoded. If negative the byte just after the previous segment is assumed, only valid if 'buf' is null.

len - The number of bytes in 'buf' to be decoded. Any subsequent bytes are taken to be 0xFF.

getByteInputBuffer

public ByteInputBuffer getByteInputBuffer()

Returns the underlying 'ByteInputBuffer' from where the MQ coded input bytes are read.

Returns:

The underlying ByteInputBuffer.