public class CBlkRateDistStats extends CodedCBlk
The ratedistortion statistics (i.e. RD slope) is stored for valid points only. The set of valid points is determined by the entropy coder engine itself. Normally they are selected so as to lye in a convex hull, which can be achived by using the 'selectConvexHull' method of this class, but some other strategies might be employed.
The rate (in bytes) for each truncation point (valid or not) is stored in the 'truncRates' array. The rate of a truncation point is the total number of bytes in 'data' (see super class) that have to be decoded to reach the truncation point.
The slope (reduction of distortion divided by the increase in rate) at each of the valid truncation points is stored in 'truncSlopes'.
The index of each valid truncation point is stored in 'truncIdxs'. The index should be interpreted in the following way: a valid truncation point at position 'n' has the index 'truncIdxs[n]', the rate 'truncRates[truncIdxs[n]]' and the slope 'truncSlopes[n]'. The arrays 'truncIdxs' and 'truncRates' have at least 'nVldTrunc' elements. The 'truncRates' array has at least 'nTotTrunc' elements.
In addition the 'isTermPass' array contains a flag for each truncation point (valid and nonvalid ones) that tells if the pass is terminated or not. If this variable is null then it means that no pass is terminated, except the last one which always is.
The compressed data is stored in the 'data' member variable of the super class.
CodedCBlk
Modifier and Type  Field and Description 

boolean[] 
isTermPass
Array of flags indicating terminated passes (valid or nonvalid
truncation points).

int 
nROIcoeff
The number of ROI coefficients in the codeblock

int 
nROIcp
Number of ROI coding passes

int 
nTotTrunc
The total number of truncation points

int 
nVldTrunc
The number of valid truncation points

SubbandAn 
sb
The subband to which the codeblock belongs

double[] 
truncDists
The distortion for each truncation point (valid and nonvalid ones)

int[] 
truncIdxs
The indices of the valid truncation points, in increasing
order.

int[] 
truncRates
The rate (in bytes) for each truncation point (valid and nonvalid
ones)

float[] 
truncSlopes
The negative of the ratedistortion slope for each valid truncation
point

Constructor and Description 

CBlkRateDistStats()
Creates a new CBlkRateDistStats object without allocating any space for
'truncRates', 'truncSlopes', 'truncDists' and 'truncIdxs' or 'data'.

CBlkRateDistStats(int m,
int n,
int skipMSBP,
byte[] data,
int[] rates,
double[] dists,
boolean[] termp,
int np,
boolean inclast)
Creates a new CBlkRateDistStats object and initializes the valid
truncation points, their rates and their slopes, from the 'rates' and
'dist' arrays.

Modifier and Type  Method and Description 

void 
selectConvexHull(int[] rates,
double[] dists,
boolean[] termp,
int n,
boolean inclast)
Compute the ratedistorsion slopes and selects those that lie in a
convex hull.

String 
toString()
Returns the contents of the object in a string.

public SubbandAn sb
public int nTotTrunc
public int nVldTrunc
public int[] truncRates
public double[] truncDists
public float[] truncSlopes
public int[] truncIdxs
public boolean[] isTermPass
public int nROIcoeff
public int nROIcp
public CBlkRateDistStats()
public CBlkRateDistStats(int m, int n, int skipMSBP, byte[] data, int[] rates, double[] dists, boolean[] termp, int np, boolean inclast)
The valid truncation points are selected by taking them as lying on a convex hull. This is done by calling the method selectConvexHull().
Note that the arrays 'rates' and 'termp' are copied, not referenced, so they can be modified after a call to this constructor.
m
 The horizontal index of the codeblock, within the subband.n
 The vertical index of the codeblock, within the subband.skipMSBP
 The number of skipped most significant bitplanes for
this codeblock.data
 The compressed data. This array is referenced by this
object so it should not be modified after.rates
 The rates (in bytes) for each truncation point in the
compressed data. This array is modified by the method but no reference
is kept to it.dists
 The reduction in distortion (with respect to no information
coded) for each truncation point. This array is modified by the method
but no reference is kept to it.termp
 An array of boolean flags indicating, for each pass, if a
pass is terminated or not (true if terminated). If null then it is
assumed that no pass is terminated except the last one which always is.np
 The number of truncation points contained in 'rates', 'dist'
and 'termp'.inclast
 If false the convex hull is constructed as for lossy
coding. If true it is constructed as for lossless coding, in which case
it is ensured that all bitplanes are sent (i.e. the last truncation
point is always included).public void selectConvexHull(int[] rates, double[] dists, boolean[] termp, int n, boolean inclast)
Note that the arrays 'rates' and 'termp' are copied, not referenced, so they can be modified after a call to this method.
rates
 The rates (in bytes) for each truncation point in the
compressed data. This array is modified by the method.dists
 The reduction in distortion (with respect to no
information coded) for each truncation point. This array is modified by
the method.termp
 An array of boolean flags indicating, for each pass, if a
pass is terminated or not (true if terminated). If null then it is
assumed that no pass is terminated except the last one which always is.n
 The number of truncation points contained in 'rates', 'dist'
and 'termp'.inclast
 If false the convex hull is constructed as for lossy
coding. If true it is constructed as for lossless coding, in which case
it is ensured that all bitplanes are sent (i.e. the last truncation
point is always included).Copyright © 2017 Open Microscopy Environment