Class | Description | |
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InverseWT | This abstract class extends the WaveletTransform one with the specifics of inverse wavelet transforms.
The image can be reconstructed at different resolution levels. This is controlled by the setResLevel() method. All the image, tile and component dimensions are relative the the resolution level being used. The number of resolution levels indicates the number of wavelet recompositions that will be used, if it is equal as the number of decomposition levels then the full resolution image is reconstructed. It is assumed in this class that all tiles and components the same reconstruction resolution level. If that where not the case the implementing class should have additional data structures to store those values for each tile. However, the 'recResLvl' member variable always contain the values applicable to the current tile, since many methods implemented here rely on them. | |
InvWTAdapter | This class provides default implementation of the methods in the 'InvWT' interface. The source is always a 'MultiResImgData', which is a multi-resolution image. The default implementation is just to return the value of the source at the current image resolution level, which is set by the 'setImgResLevel()' method.
This abstract class can be used to facilitate the development of other classes that implement the 'InvWT' interface, because most of the trivial methods are already implemented. If the default implementation of a method provided in this class does not suit a particular implementation of the 'InvWT' interface, the method can be overriden to implement the proper behaviour. If the 'setImgResLevel()' method is overriden then it is very important that the one of this class is called from the overriding method, so that the other methods in this class return the correct values. | |
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. | |
MultiResImgDataAdapter | This class provides a default implementation for the methods of the 'MultiResImgData' interface. The default implementation consists just in returning the value of the source, where the source is another 'MultiResImgData' object.
This abstract class can be used to facilitate the development of other classes that implement 'MultiResImgData'. For example a dequantizer can inherit from this class and all the trivial methods do not have to be reimplemented. If the default implementation of a method provided in this class does not suit a particular implementation of the 'MultiResImgData' interface, the method can be overriden to implement the proper behaviour. | |
SubbandSyn | This class represents a subband in a tree structure that describes the subband decomposition for a wavelet transform, specifically for the syhthesis side.
The element can be either a node or a leaf of the tree. If it is a node then ther are 4 descendants (LL, HL, LH and HH). If it is a leaf there are no descendants. The tree is bidirectional. Each element in the tree structure has a "parent", which is the subband from which the element was obtained by decomposition. The only exception is the root element which has no parent (i.e.it's null), for obvious reasons. | |
SynWTFilter | ||
SynWTFilterFloat | ||
SynWTFilterFloatLift9x7 | ||
SynWTFilterInt | ||
SynWTFilterIntLift5x3 | This class inherits from the synthesis wavelet filter definition for int data. It implements the inverse wavelet transform specifically for the 5x3 filter. The implementation is based on the lifting scheme.
See the SynWTFilter class for details such as normalization, how to split odd-length signals, etc. In particular, this method assumes that the low-pass coefficient is computed first. | |
SynWTFilterSpec | This class extends ModuleSpec class for synthesis filters specification holding purpose. |