/**
   * Calculates the parameters of the SubbandAn objects that depend on the Quantizer. The 'stepWMSE'
   * field is calculated for each subband which is a leaf in the tree rooted at 'sb', for the
   * specified component. The subband tree 'sb' must be the one for the component 'n'.
   *
   * @param sb The root of the subband tree.
   * @param c The component index
   * @see SubbandAn#stepWMSE
   */
  protected void calcSbParams(SubbandAn sb, int c) {
    float baseStep;

    if (sb.stepWMSE > 0f) // parameters already calculated
    return;
    if (!sb.isNode) {
      if (isReversible(tIdx, c)) {
        sb.stepWMSE = (float) Math.pow(2, -(src.getNomRangeBits(c) << 1)) * sb.l2Norm * sb.l2Norm;
      } else {
        baseStep = ((Float) qsss.getTileCompVal(tIdx, c)).floatValue();
        if (isDerived(tIdx, c)) {
          sb.stepWMSE =
              baseStep
                  * baseStep
                  * (float) Math.pow(2, (sb.anGainExp - sb.level) << 1)
                  * sb.l2Norm
                  * sb.l2Norm;
        } else {
          sb.stepWMSE = baseStep * baseStep;
        }
      }
    } else {
      calcSbParams((SubbandAn) sb.getLL(), c);
      calcSbParams((SubbandAn) sb.getHL(), c);
      calcSbParams((SubbandAn) sb.getLH(), c);
      calcSbParams((SubbandAn) sb.getHH(), c);
      sb.stepWMSE = 1f; // Signal that we already calculated this branch
    }
  }
Esempio n. 2
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  /**
   * Performs the forward wavelet transform on the whole band. It iteratively decomposes the
   * subbands from the top node to the leaves.
   *
   * @param band The band containing the float data to decompose
   * @param subband The structure containing the coordinates of the current subband in the whole
   *     band to decompose.
   * @param c The index of the current component to decompose
   */
  private void waveletTreeDecomposition(DataBlk band, SubbandAn subband, int c) {

    // If the current subband is a leaf then nothing to be done (a leaf is
    // not decomposed).
    if (!subband.isNode) return;
    else {
      // Perform the 2D wavelet decomposition of the current subband
      wavelet2DDecomposition(band, (SubbandAn) subband, c);

      // Perform the decomposition of the four resulting subbands
      waveletTreeDecomposition(band, (SubbandAn) subband.getHH(), c);
      waveletTreeDecomposition(band, (SubbandAn) subband.getLH(), c);
      waveletTreeDecomposition(band, (SubbandAn) subband.getHL(), c);
      waveletTreeDecomposition(band, (SubbandAn) subband.getLL(), c);
    }
  }
Esempio n. 3
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  /**
   * Returns the next subband that will be used to get the next code-block to return by the
   * getNext[Intern]CodeBlock method.
   *
   * @param c The component
   * @return Its returns the next subband that will be used to get the next code-block to return by
   *     the getNext[Intern]CodeBlock method.
   */
  private SubbandAn getNextSubband(int c) {
    int down = 1;
    int up = 0;
    int direction = down;
    SubbandAn nextsb;

    nextsb = currentSubband[c];
    // If it is the first call to this method
    if (nextsb == null) {
      nextsb = this.getAnSubbandTree(tIdx, c);
      // If there is no decomposition level then send the whole image
      if (!nextsb.isNode) {
        return nextsb;
      }
    }

    // Find the next subband to send
    do {
      // If the current subband is null then break
      if (nextsb == null) {
        break;
      }

      // If the current subband is a leaf then select the next leaf to
      // send or go up in the decomposition tree if the leaf was a LL
      // one.
      else if (!nextsb.isNode) {
        switch (nextsb.orientation) {
          case Subband.WT_ORIENT_HH:
            nextsb = (SubbandAn) nextsb.getParent().getLH();
            direction = down;
            break;
          case Subband.WT_ORIENT_LH:
            nextsb = (SubbandAn) nextsb.getParent().getHL();
            direction = down;
            break;
          case Subband.WT_ORIENT_HL:
            nextsb = (SubbandAn) nextsb.getParent().getLL();
            direction = down;
            break;
          case Subband.WT_ORIENT_LL:
            nextsb = (SubbandAn) nextsb.getParent();
            direction = up;
            break;
        }
      }

      // Else if the current subband is a node
      else if (nextsb.isNode) {
        // If the direction is down the select the HH subband of the
        // current node.
        if (direction == down) {
          nextsb = (SubbandAn) nextsb.getHH();
        }
        // Else the direction is up the select the next node to cover
        // or still go up in the decomposition tree if the node is a LL
        // subband
        else if (direction == up) {
          switch (nextsb.orientation) {
            case Subband.WT_ORIENT_HH:
              nextsb = (SubbandAn) nextsb.getParent().getLH();
              direction = down;
              break;
            case Subband.WT_ORIENT_LH:
              nextsb = (SubbandAn) nextsb.getParent().getHL();
              direction = down;
              break;
            case Subband.WT_ORIENT_HL:
              nextsb = (SubbandAn) nextsb.getParent().getLL();
              direction = down;
              break;
            case Subband.WT_ORIENT_LL:
              nextsb = (SubbandAn) nextsb.getParent();
              direction = up;
              break;
          }
        }
      }

      if (nextsb == null) {
        break;
      }
    } while (nextsb.isNode);
    return nextsb;
  }