Exemplo n.º 1
0
  /** creates grid of half size */
  static AttributeGrid makeGridHalfSize(AttributeGrid inGrid, int nx, int ny, int nz, int type) {

    int nx1 = (nx + 1) / 2;
    int ny1 = (ny + 1) / 2;
    int nz1 = (nz + 1) / 2;
    AttributeGrid grid =
        (AttributeGrid)
            inGrid.createEmpty(
                nx1, ny1, nz1, 2 * inGrid.getVoxelSize(), 2 * inGrid.getSliceHeight());

    long att[] = new long[8];

    for (int y = 0; y < ny1; y++) {
      int yy = 2 * y;
      int yy1 = (yy + 1);
      if (yy1 >= ny) yy1 = yy;
      for (int x = 0; x < nx1; x++) {

        int xx = 2 * x;
        int xx1 = (xx + 1);
        if (xx1 >= nx) xx1 = xx;

        for (int z = 0; z < nz1; z++) {

          int zz = 2 * z;
          int zz1 = (zz + 1) % nz;
          if (zz1 >= nz) zz1 = zz;
          int c = 0;

          att[c++] = inGrid.getAttribute(xx, yy, zz);
          att[c++] = inGrid.getAttribute(xx, yy, zz1);
          att[c++] = inGrid.getAttribute(xx1, yy, zz);
          att[c++] = inGrid.getAttribute(xx1, yy, zz1);
          att[c++] = inGrid.getAttribute(xx1, yy1, zz);
          att[c++] = inGrid.getAttribute(xx1, yy1, zz1);
          att[c++] = inGrid.getAttribute(xx, yy1, zz);
          att[c++] = inGrid.getAttribute(xx, yy1, zz1);

          switch (type) {
            default:
            case SCALING_AVERAGE:
              grid.setAttribute(x, y, z, average(att));
              break;
            case SCALING_MAX:
              grid.setAttribute(x, y, z, max(att));
              break;
          }
        }
      }
    }

    return grid;
  }
Exemplo n.º 2
0
  @Override
  public AttributeGrid execute(AttributeGrid dest) {

    if (dest.getWidth() != distanceGrid.getWidth()
        || dest.getHeight() != distanceGrid.getHeight()
        || dest.getDepth() != distanceGrid.getDepth()) {
      printf(
          "Distance grid: %d %d %d\n",
          distanceGrid.getWidth(), distanceGrid.getHeight(), distanceGrid.getDepth());
      printf("Dest grid: %d %d %d\n", dest.getWidth(), dest.getHeight(), dest.getDepth());
      throw new IllegalArgumentException(
          "DistanceGrid and DensityGrid must be the same dimensions");
    }

    double vs = distanceGrid.getVoxelSize();

    int nx = distanceGrid.getWidth();
    int ny = distanceGrid.getHeight();
    int nz = distanceGrid.getDepth();

    // 5 intervals for distance values
    // -INF,  inDistanceMinus, inDistancePlus, outDistanceMinus, outDistancePlus, +INF
    int inDistanceMinus = (int) ((inDistanceValue / vs - 0.5) * subvoxelResolution);
    int inDistancePlus = (int) ((inDistanceValue / vs + 0.5) * subvoxelResolution);
    int outDistanceMinus = (int) ((outDistanceValue / vs - 0.5) * subvoxelResolution);
    int outDistancePlus = (int) ((outDistanceValue / vs + 0.5) * subvoxelResolution);
    if (inDistanceValue < maxInDistanceValue) {
      // no interior shell will be generated
      inDistanceMinus = inDistancePlus = DEFAULT_IN_VALUE;
    }
    if (outDistanceValue > maxOutDistanceValue) {
      // no exterior shell will be generated
      outDistanceMinus = outDistancePlus = DEFAULT_OUT_VALUE;
    }
    //
    // TODO make it MT
    //
    for (int y = 0; y < ny; y++) {
      for (int x = 0; x < nx; x++) {
        for (int z = 0; z < nz; z++) {
          long att = (long) (short) distanceGrid.getAttribute(x, y, z);

          short dest_att;

          if (att < inDistanceMinus) {
            dest.setAttribute(x, y, z, 0);
          } else if (att >= inDistanceMinus && att < inDistancePlus) {
            dest_att = (short) (att - inDistanceMinus);
            dest.setAttribute(x, y, z, dest_att);
          } else if (att >= inDistancePlus && att < outDistanceMinus || att == DEFAULT_IN_VALUE) {
            dest_att = (short) subvoxelResolution;
            dest.setAttribute(x, y, z, dest_att);
          } else if (att >= outDistanceMinus && att <= outDistancePlus) {
            dest_att = (short) (outDistancePlus - att);
            dest.setAttribute(x, y, z, dest_att);
          } else {
            dest.setAttribute(x, y, z, 0);
          }
        }
      }
    }

    return dest;
  }