C# Класс CSJ2K.j2k.wavelet.synthesis.InvWTFull

This class implements the InverseWT with the full-page approach for int and float data.

The image can be reconstructed at different (image) resolution levels indexed from the lowest resolution available for each tile-component. This is controlled by the setImgResLevel() method.

Note: Image resolution level indexes may differ from tile-component resolution index. They are indeed indexed starting from the lowest number of decomposition levels of each component of each tile.

Example: For an image (1 tile) with 2 components (component 0 having 2 decomposition levels and component 1 having 3 decomposition levels), the first (tile-) component has 3 resolution levels and the second one has 4 resolution levels, whereas the image has only 3 resolution levels available.

This implementation does not support progressive data: Data is considered to be non-progressive (i.e. "final" data) and the 'progressive' attribute of the 'DataBlk' class is always set to false, see the 'DataBlk' class.

Наследование: InverseWT

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Открытые методы

Метод	Описание
InvWTFull ( CBlkWTDataSrcDec src, DecoderSpecs decSpec ) : System	Initializes this object with the given source of wavelet coefficients. It initializes the resolution level for full resolutioin reconstruction.
getCompData ( CSJ2K.j2k.image.DataBlk blk, int c ) : CSJ2K.j2k.image.DataBlk	Returns a block of image data containing the specifed rectangular area, in the specified component, as a copy (see below). The rectangular area is specified by the coordinates and dimensions of the 'blk' object. The area to return is specified by the 'ulx', 'uly', 'w' and 'h' members of the 'blk' argument. These members are not modified by this method. The data returned by this method is always a copy of the internal data of this object, if any, and it can be modified "in place" without any problems after being returned. The 'offset' of the returned data is 0, and the 'scanw' is the same as the block's width. See the 'DataBlk' class. If the data array in 'blk' is `null`, then a new one is created. If the data array is not `null` then it must be big enough to contain the requested area. The returned data always has its 'progressive' attribute unset (i.e false)
getFixedPoint ( int c ) : int	Returns the position of the fixed point in the specified component. This is the position of the least significant integral (i.e. non-fractional) bit, which is equivalent to the number of fractional bits. For instance, for fixed-point values with 2 fractional bits, 2 is returned. For floating-point data this value does not apply and 0 should be returned. Position 0 is the position of the least significant bit in the data. This default implementation assumes that the wavelet transform does not modify the fixed point. If that were the case this method should be overriden.
getImplementationType ( int c ) : int	Returns the implementation type of this wavelet transform, WT_IMPL_FULL (full-page based transform). All components return the same.
getInternCompData ( CSJ2K.j2k.image.DataBlk blk, int c ) : CSJ2K.j2k.image.DataBlk	Returns a block of image data containing the specifed rectangular area, in the specified component, as a reference to the internal buffer (see below). The rectangular area is specified by the coordinates and dimensions of the 'blk' object. The area to return is specified by the 'ulx', 'uly', 'w' and 'h' members of the 'blk' argument. These members are not modified by this method. The data returned by this method can be the data in the internal buffer of this object, if any, and thus can not be modified by the caller. The 'offset' and 'scanw' of the returned data can be arbitrary. See the 'DataBlk' class. The returned data has its 'progressive' attribute unset (i.e. false).
getNomRangeBits ( int c ) : int	Returns the number of bits, referred to as the "range bits", corresponding to the nominal range of the data in the specified component. The returned value corresponds to the nominal dynamic range of the reconstructed image data, as long as the getNomRangeBits() method of the source returns a value corresponding to the nominal dynamic range of the image data and not not of the wavelet coefficients. If this number is b then for unsigned data the nominal range is between 0 and 2^b-1, and for signed data it is between -2^(b-1) and 2^(b-1)-1.
isReversible ( int t, int c ) : bool	Returns the reversibility of the wavelet transform for the specified component, in the current tile. A wavelet transform is reversible when it is suitable for lossless and lossy-to-lossless compression.
nextTile ( ) : void	Advances to the next tile, in standard scan-line order (by rows then columns). An 'NoNextElementException' is thrown if the current tile is the last one (i.e. there is no next tile).
setTile ( int x, int y ) : void	Changes the current tile, given the new indexes. An IllegalArgumentException is thrown if the indexes do not correspond to a valid tile.

Приватные методы

Метод	Описание
isSubbandReversible ( Subband subband ) : bool	Returns the reversibility of the current subband. It computes iteratively the reversibility of the child subbands. For each subband it tests the reversibility of the horizontal and vertical synthesis filters used to reconstruct this subband.
wavelet2DReconstruction ( CSJ2K.j2k.image.DataBlk db, CSJ2K.j2k.wavelet.synthesis.SubbandSyn sb, int c ) : void	Performs the 2D inverse wavelet transform on a subband of the image, on the specified component. This method will successively perform 1D filtering steps on all columns and then all lines of the subband.
waveletTreeReconstruction ( CSJ2K.j2k.image.DataBlk img, CSJ2K.j2k.wavelet.synthesis.SubbandSyn sb, int c ) : void	Performs the inverse wavelet transform on the whole component. It iteratively reconstructs the subbands from leaves up to the root node. This method is recursive, the first call to it the 'sb' must be the root of the subband tree. The method will then process the entire subband tree by calling itslef recursively.

Описание методов

InvWTFull() публичный Метод

Initializes this object with the given source of wavelet coefficients. It initializes the resolution level for full resolutioin reconstruction.

public InvWTFull ( CBlkWTDataSrcDec src, DecoderSpecs decSpec ) : System
src	CBlkWTDataSrcDec	from where the wavelet coefficinets should be obtained. /// ///
decSpec	CSJ2K.j2k.decoder.DecoderSpecs	The decoder specifications /// ///
Результат	System

getCompData() публичный Метод

Returns a block of image data containing the specifed rectangular area, in the specified component, as a copy (see below). The rectangular area is specified by the coordinates and dimensions of the 'blk' object.

The area to return is specified by the 'ulx', 'uly', 'w' and 'h' members of the 'blk' argument. These members are not modified by this method.

The data returned by this method is always a copy of the internal data of this object, if any, and it can be modified "in place" without any problems after being returned. The 'offset' of the returned data is 0, and the 'scanw' is the same as the block's width. See the 'DataBlk' class.

If the data array in 'blk' is null, then a new one is created. If the data array is not null then it must be big enough to contain the requested area.

The returned data always has its 'progressive' attribute unset (i.e false)

public getCompData ( CSJ2K.j2k.image.DataBlk blk, int c ) : CSJ2K.j2k.image.DataBlk
blk	CSJ2K.j2k.image.DataBlk	Its coordinates and dimensions specify the area to /// return. If it contains a non-null data array, then it must be large /// enough. If it contains a null data array a new one is created. The /// fields in this object are modified to return the data. /// ///
c	int	The index of the component from which to get the data. /// ///
Результат	CSJ2K.j2k.image.DataBlk

getFixedPoint() публичный Метод

Returns the position of the fixed point in the specified component. This is the position of the least significant integral (i.e. non-fractional) bit, which is equivalent to the number of fractional bits. For instance, for fixed-point values with 2 fractional bits, 2 is returned. For floating-point data this value does not apply and 0 should be returned. Position 0 is the position of the least significant bit in the data.

This default implementation assumes that the wavelet transform does not modify the fixed point. If that were the case this method should be overriden.

public getFixedPoint ( int c ) : int
c	int	The index of the component. /// ///
Результат	int

getImplementationType() публичный Метод

Returns the implementation type of this wavelet transform, WT_IMPL_FULL (full-page based transform). All components return the same.

public getImplementationType ( int c ) : int
c	int	The index of the component. /// ///
Результат	int

getInternCompData() публичный Метод

Returns a block of image data containing the specifed rectangular area, in the specified component, as a reference to the internal buffer (see below). The rectangular area is specified by the coordinates and dimensions of the 'blk' object.

The area to return is specified by the 'ulx', 'uly', 'w' and 'h' members of the 'blk' argument. These members are not modified by this method.

The data returned by this method can be the data in the internal buffer of this object, if any, and thus can not be modified by the caller. The 'offset' and 'scanw' of the returned data can be arbitrary. See the 'DataBlk' class.

The returned data has its 'progressive' attribute unset (i.e. false).

public getInternCompData ( CSJ2K.j2k.image.DataBlk blk, int c ) : CSJ2K.j2k.image.DataBlk
blk	CSJ2K.j2k.image.DataBlk	Its coordinates and dimensions specify the area to return. /// ///
c	int	The index of the component from which to get the data. /// ///
Результат	CSJ2K.j2k.image.DataBlk

getNomRangeBits() публичный Метод

Returns the number of bits, referred to as the "range bits", corresponding to the nominal range of the data in the specified component.

The returned value corresponds to the nominal dynamic range of the reconstructed image data, as long as the getNomRangeBits() method of the source returns a value corresponding to the nominal dynamic range of the image data and not not of the wavelet coefficients.

If this number is b then for unsigned data the nominal range is between 0 and 2^b-1, and for signed data it is between -2^(b-1) and 2^(b-1)-1.

public getNomRangeBits ( int c ) : int

c int The index of the component. /// ///

Результат int

isReversible() публичный Метод

Returns the reversibility of the wavelet transform for the specified component, in the current tile. A wavelet transform is reversible when it is suitable for lossless and lossy-to-lossless compression.

public isReversible ( int t, int c ) : bool

t int The index of the tile. /// ///

c int The index of the component. /// ///

Результат bool

nextTile() публичный Метод

Advances to the next tile, in standard scan-line order (by rows then columns). An 'NoNextElementException' is thrown if the current tile is the last one (i.e. there is no next tile).

public nextTile ( ) : void

Результат void

setTile() публичный Метод

Changes the current tile, given the new indexes. An IllegalArgumentException is thrown if the indexes do not correspond to a valid tile.

public setTile ( int x, int y ) : void

x int The horizontal index of the tile. /// ///

y int The vertical index of the new tile. /// ///

Результат void

public getNomRangeBits ( int c ) : int
c	int	The index of the component. /// ///
Результат	int

public isReversible ( int t, int c ) : bool
t	int	The index of the tile. /// ///
c	int	The index of the component. /// ///
Результат	bool

public setTile ( int x, int y ) : void
x	int	The horizontal index of the tile. /// ///
y	int	The vertical index of the new tile. /// ///
Результат	void