static double getMaxDiff(AttributeGrid indexGrid, double pntx[], double pnty[], double pntz[]) {

    int nx = indexGrid.getWidth();
    int ny = indexGrid.getHeight();
    int nz = indexGrid.getDepth();
    double coord[] = new double[3];
    double maxDiff = 0;
    for (int z = 0; z < nz; z++) {
      for (int y = 0; y < ny; y++) {
        for (int x = 0; x < nx; x++) {
          int ind = (int) indexGrid.getAttribute(x, y, z);
          if (ind != 0) {
            double dx = pntx[ind] - (x + 0.5),
                dy = pnty[ind] - (y + 0.5),
                dz = pntz[ind] - (z + 0.5);
            double dist = sqrt(dx * dx + dy * dy + dz * dz);
            double edist = minDistance((x + 0.5), (y + 0.5), (z + 0.5), pntx, pnty, pntz);
            double diff = abs(dist - edist);
            if (diff > maxDiff) maxDiff = diff;
          }
        }
      }
    }
    return maxDiff;
  }
Esempio n. 2
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    CustomVoxelsCollector(
        AttributeGrid grid,
        GridBitIntervals surfaceMask,
        int neighbors[],
        VoxelChecker voxelChecker) {

      this.grid = grid;
      this.surfaceMask = surfaceMask;
      this.neighbors = neighbors;
      this.voxelChecker = voxelChecker;
      this.nx = grid.getWidth();
      this.ny = grid.getHeight();
      this.nz = grid.getDepth();
    }
  static void printDiff(
      AttributeGrid indexGrid, double pntx[], double pnty[], double pntz[], boolean printInd) {

    int nx = indexGrid.getWidth();
    int ny = indexGrid.getHeight();
    int nz = indexGrid.getDepth();
    double coord[] = new double[3];
    double maxDiff = 0;
    for (int z = 0; z < nz; z++) {
      if (DEBUG) printf("z: %d\n", z);
      for (int y = 0; y < ny; y++) {
        for (int x = 0; x < nx; x++) {
          int ind = (int) indexGrid.getAttribute(x, y, z);
          if (ind != 0) {
            double dx = pntx[ind] - (x + 0.5),
                dy = pnty[ind] - (y + 0.5),
                dz = pntz[ind] - (z + 0.5);
            double dist = sqrt(dx * dx + dy * dy + dz * dz);
            double edist = minDistance((x + 0.5), (y + 0.5), (z + 0.5), pntx, pnty, pntz);
            double diff = abs(dist - edist);
            if (diff > maxDiff) maxDiff = diff;
            int inde = minIndex((x + 0.5), (y + 0.5), (z + 0.5), pntx, pnty, pntz);
            // if(inde != ind) printf("%2d ", inde);
            if (inde != ind) {
              if (printInd) printf("%2d ", inde);
              else {
                int d = (int) (diff * 100 + 0.5);
                if (d != 0) printf("%2d ", d);
                else printf(" . ");
              }
            } else {
              if (printInd) printf("%2d ", inde);
              else printf(" . ");
            }
            // if(diffind != 0.0)
            // voxel has point accociated with it
            //    printf("%3d ", diffind);
            // else
            //    printf("  o ");
          } else {
            printf("  x ");
          }
        }
        printf("\n");
      }
      printf("--\n");
    }
    printf("maxDiff: %10.3e\n", maxDiff);
  }
Esempio n. 4
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  public AttributeGrid execute(AttributeGrid grid) {

    printf("ErosionMask.execute()\n");

    m_grid = grid;

    int nx = grid.getWidth();
    int ny = grid.getHeight();
    int nz = grid.getDepth();
    m_surfaceMask = new GridBitIntervals(nx, ny, nz);

    if (m_nnCount == 0) {

      // spherical erosion
      m_grid.find(
          VoxelClasses.INSIDE,
          new CustomVoxelsCollector(
              m_grid, m_surfaceMask, MaskFactory.makeBall(m_iterCount), m_voxelChecker));
      // m_grid.find(VoxelClasses.INSIDE, new SphericalVoxelsCollector(m_grid, m_surfaceMask,
      // m_iterCount, m_voxelChecker));
      // set marked voxels as OUTSIDE
      m_surfaceMask.find(VoxelClasses.INSIDE, new VoxelStateSetter(m_grid, Grid.OUTSIDE));
      m_surfaceMask.clear();

    } else {

      for (int i = 0; i < m_iterCount; i++) {

        makeOneIteration(getCount(i));
      }
    }

    m_grid = null;
    m_surfaceMask = null;

    return grid;
  }
  static void printIndices(AttributeGrid indexGrid) {

    int nx = indexGrid.getWidth();
    int ny = indexGrid.getHeight();
    int nz = indexGrid.getDepth();
    double coord[] = new double[3];

    for (int z = 0; z < nz; z++) {
      printf("z: %d\n", z);
      for (int y = 0; y < ny; y++) {
        for (int x = 0; x < nx; x++) {
          int ind = (int) indexGrid.getAttribute(x, y, z);
          if (ind != 0) {
            // voxel has point accociated with it
            printf("%2d ", ind);
          } else {
            printf(" . ");
          }
        }
        printf("\n");
      }
      printf("--\n");
    }
  }
Esempio n. 6
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  protected void createMipMap(AttributeGrid grid) {
    grid.getGridBounds(gbounds);
    xgmin = gbounds[0];
    ygmin = gbounds[2];
    zgmin = gbounds[4];

    scaleFactor = grid.getWidth() / (gbounds[1] - gbounds[0]);

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

    if (DEBUG) {
      printf("createMipMap()\n grid [%d x %d x %d]\n", nx, ny, nz);
    }
    Vector vgrids = new Vector();
    vgrids.add(grid);
    int levelCount = 1;
    while (nx > 1 || ny > 1 || nz > 1) {

      grid = makeGridHalfSize(grid, nx, ny, nz, m_scalingType);
      vgrids.add(grid);

      nx = (nx + 1) / 2;
      ny = (ny + 1) / 2;
      nz = (nz + 1) / 2;

      if (DEBUG) {
        printf("  mipmap level [%d x %d x %d]\n", nx, ny, nz);
      }
      levelCount++;
    }
    printf("  levelCount: %d\n", levelCount);

    m_grids = (AttributeGrid[]) vgrids.toArray(new AttributeGrid[levelCount]);
  }
Esempio n. 7
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  @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;
  }
  static void renderDiff(
      AttributeGrid indexGrid,
      int z,
      double pntx[],
      double pnty[],
      double pntz[],
      int vs,
      String filePath,
      boolean renderErrors)
      throws Exception {

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

    int picx = nx * vs;
    int picy = ny * vs;
    BufferedImage image = new BufferedImage(picx, picy, BufferedImage.TYPE_INT_ARGB);
    Graphics2D g = (Graphics2D) image.getGraphics();
    g.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);

    Color backgroundColor = new Color(240, 240, 240);
    Color voxelColor = new Color(255, 255, 255);
    Color pointColor = new Color(0, 0, 0);
    Color calcLineColor = new Color(255, 0, 0);
    Color exactLineColor = new Color(0, 0, 255);
    Color colors[] =
        new Color[] {
          new Color(255, 150, 150),
          new Color(255, 255, 150),
          new Color(150, 255, 150),
          new Color(150, 255, 255),
          new Color(200, 150, 255),
          new Color(255, 150, 255),
          new Color(200, 150, 150),
          new Color(50, 150, 200),
          new Color(250, 150, 150),
          new Color(150, 250, 150),
          new Color(200, 150, 150),
          new Color(255, 200, 150),
          new Color(255, 255, 150),
          new Color(150, 255, 200),
          new Color(100, 200, 255),
          new Color(150, 150, 255),
          new Color(230, 190, 255),
          new Color(200, 150, 150),
          new Color(150, 150, 200),
          new Color(200, 250, 150),
        };

    colors = getRainbowColors(61);

    int pointSize = 4;

    g.setColor(backgroundColor);
    g.fillRect(0, 0, picx, picy);

    g.setColor(voxelColor);

    for (int y = 0; y < ny; y++) {
      for (int x = 0; x < nx; x++) {
        g.fillRect(x * vs, y * vs, vs - 1, vs - 1);
      }
    }
    for (int y = 0; y < ny; y++) {
      for (int x = 0; x < nx; x++) {
        int ind = (int) indexGrid.getAttribute(x, y, z);
        if (ind != 0) {
          g.setColor(colors[(ind - 1) % colors.length]);
          g.fillRect(x * vs, y * vs, vs - 1, vs - 1);
        }
      }
    }

    g.setColor(pointColor);
    for (int k = 1; k < pntx.length; k++) {

      int pz = (int) (pntz[k]);
      if (pz == z) {
        // point is in the z-slice
        int px = iround(vs * pntx[k]);
        int py = iround(vs * pnty[k]);
        g.fillOval(px - pointSize / 2, py - pointSize / 2, pointSize, pointSize);
      }
    }

    for (int y = 0; y < ny; y++) {
      for (int x = 0; x < nx; x++) {
        int ind = (int) indexGrid.getAttribute(x, y, z);
        if (ind != 0) {
          double x0 = (x + 0.5), y0 = (y + 0.5), z0 = (z + 0.5);

          double dx = pntx[ind] - x0, dy = pnty[ind] - y0, dz = pntz[ind] - z0;
          double dist = sqrt(dx * dx + dy * dy + dz * dz);
          double edist = minDistance(x0, y0, z0, pntx, pnty, pntz);
          int inde = minIndex(x0, y0, z0, pntx, pnty, pntz);
          double error = abs(dist - edist);
          if (inde != ind && error > 0.01 && renderErrors) {
            g.setColor(pointColor);
            if (error > 0.8) error = 0.8;
            double s = (vs * error);
            g.drawRect(iround(vs * x0 - s / 2), iround(vs * y0 - s / 2), iround(s), iround(s));
            // g.setColor(calcLineColor);
            // g.drawLine(iround(vs*x0), iround(vs*y0), iround(vs*pntx[ind]), iround(vs*pnty[ind]));
            // g.setColor(exactLineColor);
            // g.drawLine(iround(vs*x0), iround(vs*y0), iround(vs*pntx[inde]),
            // iround(vs*pnty[inde]));
          }
        }
      }
    }

    ImageIO.write(image, "png", new File(filePath));
  }
Esempio n. 9
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  /** returns interpolated value from one grid; */
  double getValue(AttributeGrid grid, double x, double y, double z) {

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

    // half voxel shift to get to the voxels centers
    x -= 0.5;
    y -= 0.5;
    z -= 0.5;

    int ix = (int) floor(x), iy = (int) floor(y), iz = (int) floor(z);

    int ix1 = (ix + 1), iy1 = (iy + 1), iz1 = (iz + 1);

    double dx = x - ix, dy = y - iy, dz = z - iz, dx1 = 1. - dx, dy1 = 1. - dy, dz1 = 1. - dz;

    int mask = ALLCORNERS; // mask to calculate 8 corners of the cube

    if ((m_repeatType & REPEAT_X) != 0) {
      ix = reminder(ix, nx);
      ix1 = reminder(ix1, nx);
    } else {
      if (isOutside(ix, nx)) mask &= MASKX0;
      if (isOutside(ix1, nx)) mask &= MASKX1;
    }
    if ((m_repeatType & REPEAT_Y) != 0) {
      iy = reminder(iy, ny);
      iy1 = reminder(iy1, ny);
    } else {
      if (isOutside(iy, ny)) mask &= MASKY0;
      if (isOutside(iy1, ny)) mask &= MASKY1;
    }

    if ((m_repeatType & REPEAT_Z) != 0) {
      iz = reminder(iz, nz);
      iz1 = reminder(iz1, nz);
    } else {
      if (isOutside(iz, nz)) mask &= MASKZ0;
      if (isOutside(iz1, nz)) mask &= MASKZ1;
    }

    // try {
    long v000 = ((mask & B000) != 0) ? grid.getAttribute(ix, iy, iz) : 0,
        v100 = ((mask & B100) != 0) ? grid.getAttribute(ix1, iy, iz) : 0,
        v010 = ((mask & B010) != 0) ? grid.getAttribute(ix, iy1, iz) : 0,
        v110 = ((mask & B110) != 0) ? grid.getAttribute(ix1, iy1, iz) : 0,
        v001 = ((mask & B001) != 0) ? grid.getAttribute(ix, iy, iz1) : 0,
        v101 = ((mask & B101) != 0) ? grid.getAttribute(ix1, iy, iz1) : 0,
        v011 = ((mask & B011) != 0) ? grid.getAttribute(ix, iy1, iz1) : 0,
        v111 = ((mask & B111) != 0) ? grid.getAttribute(ix1, iy1, iz1) : 0;
    double d =
        dx1 * (dy1 * (dz1 * v000 + dz * v001) + dy * (dz1 * v010 + dz * v011))
            + dx * (dy1 * (dz1 * v100 + dz * v101) + dy * (dz1 * v110 + dz * v111));

    return d;
    // } catch(Exception e){
    // e.printStackTrace();
    //    printf("        ix: (%d %d %d), nx: (%d %d %d)  [%s %s %s]\n", ix, iy, iz, nx, ny, nz,
    //           ((m_repeatType & REPEAT_X) != 0),((m_repeatType & REPEAT_Y) != 0),((m_repeatType &
    // REPEAT_Z) != 0));
    // }
    // return 0;
  }