@Override
public void operate(GeoGrid src, GeoGrid dst, int startRow, int endRow) {
final int cols = src.getCols();
final int rows = src.getRows();
final double cellSize = src.getCellSize();
final double gg = cellSize * cellSize;
final int firstInteriorRow = Math.max(1, startRow);
final int lastInteriorRow = Math.min(rows - 1, endRow);
// top row
if (startRow == 0) {
for (int col = 0; col < cols; col++) {
operateBorder(src, dst, col, 0, cellSize);
}
}
// bottom row
if (endRow == rows - 1) {
for (int col = 0; col < cols; col++) {
operateBorder(src, dst, col, rows - 1, cellSize);
}
}
// left column
for (int row = firstInteriorRow; row < lastInteriorRow; row++) {
operateBorder(src, dst, 0, row, cellSize);
}
// right column
for (int row = firstInteriorRow; row < lastInteriorRow; row++) {
operateBorder(src, dst, cols - 1, row, cellSize);
}
// interior of grid
float[][] srcGrid = src.getGrid();
float[][] dstGrid = dst.getGrid();
for (int row = firstInteriorRow; row < lastInteriorRow; row++) {
for (int col = 1; col < cols - 1; col++) {
final float z1 = srcGrid[row - 1][col - 1]; // top left
final float z2 = srcGrid[row - 1][col]; // top
final float z3 = srcGrid[row - 1][col + 1]; // top right
final float z4 = srcGrid[row][col - 1]; // left
final float z5 = srcGrid[row][col]; // center
final float z6 = srcGrid[row][col + 1]; // right
final float z7 = srcGrid[row + 1][col - 1]; // bottom left
final float z8 = srcGrid[row + 1][col]; // bottom
final float z9 = srcGrid[row + 1][col + 1]; // bottom right
final double a = gg * ((z1 + z3 + z4 + z6 + z7 + z9) / 6 - (z2 + z5 + z8) / 3);
final double b = gg * ((z1 + z2 + z3 + z7 + z8 + z9) / 6 - (z4 + z5 + z6) / 3);
final double a_b = a - b;
final double c = (z3 + z7 - z1 - z9) / 4 * gg;
final double v = -a - b + Math.sqrt(a_b * a_b + c * c);
dstGrid[row][col] = v < 0f ? 0f : (float) v;
}
}
}
private void operateBorder(GeoGrid src, GeoGrid dst, int col, int row, double cellSize) {
float[][] srcGrid = src.getGrid();
float[][] dstGrid = dst.getGrid();
final int cols = src.getCols();
final int rows = src.getRows();
final int rm = row - 1 < 0 ? 0 : row - 1;
final int rp = row + 1 >= rows ? rows - 1 : row + 1;
final int cm = col - 1 < 0 ? 0 : col - 1;
final int cp = col + 1 >= cols ? cols - 1 : col + 1;
final float z1 = srcGrid[rm][cm]; // top left
final float z2 = srcGrid[rm][col]; // top
final float z3 = srcGrid[rm][cp]; // top right
final float z4 = srcGrid[row][cm]; // left
final float z5 = srcGrid[row][col]; // center
final float z6 = srcGrid[row][cp]; // right
final float z7 = srcGrid[rp][cm]; // bottom left
final float z8 = srcGrid[rp][col]; // bottom
final float z9 = srcGrid[rp][cp]; // bottom right
final double gg = cellSize * cellSize;
final double a = gg * ((z1 + z3 + z4 + z6 + z7 + z9) / 6 - (z2 + z5 + z8) / 3);
final double b = gg * ((z1 + z2 + z3 + z7 + z8 + z9) / 6 - (z4 + z5 + z6) / 3);
final double a_b = a - b;
final double c = (z3 + z7 - z1 - z9) / 4 * gg;
final double v = -a - b + Math.sqrt(a_b * a_b + c * c);
dstGrid[row][col] = v < 0f ? 0f : (float) v;
}
public GeoPath traceSingleContourAtPoint(GeoGrid geoGrid, double x, double y) {
this.flags = new boolean[geoGrid.getRows()][geoGrid.getCols()];
double cellSize = geoGrid.getCellSize();
double west = geoGrid.getWest();
double north = geoGrid.getNorth();
double level = geoGrid.getBicubicInterpol(x, y);
int[] cell = new int[] {(int) ((x - west) / cellSize), (int) ((north - y) / cellSize)};
GeoPath geoPath = traceContour(geoGrid.getGrid(), cell, level, west, north, cellSize);
return geoPath;
}
private void contourLevel(GeoGrid geoGrid, double level, GeoSet levelGeoSet) {
final int nbrCellsX = geoGrid.getCols() - 1;
final int nbrCellsY = geoGrid.getRows() - 1;
float[][] grid = geoGrid.getGrid();
double west = geoGrid.getWest();
double north = geoGrid.getNorth();
double cellSize = geoGrid.getCellSize();
for (int i = 0; i < this.flags.length; i++) {
java.util.Arrays.fill(this.flags[i], false);
}
for (int y = 0; y < nbrCellsY; y++) {
boolean[] flag_row = flags[y];
for (int x = 0; x < nbrCellsX; x++) {
if (flag_row[x] == false) {
traceContour(grid, new int[] {x, y}, level, west, north, cellSize, levelGeoSet);
}
}
}
}
public GeoObject operate(GeoGrid geoGrid, double firstContourLevel, double lastContourLevel) {
flags = new boolean[geoGrid.getRows()][geoGrid.getCols()];
GeoSet geoSet = new GeoSet();
final int nlevels = (int) ((lastContourLevel - firstContourLevel) / interval) + 1;
if (treatDegreeJump) {
GeoSet levelGeoSet = new GeoSet();
this.contourLevel(geoGrid, 0.f, levelGeoSet);
levelGeoSet.setName(Float.toString(0.f));
geoSet.add(levelGeoSet);
}
for (int i = 0; i < nlevels; ++i) {
final double contourLevel = firstContourLevel + i * interval;
GeoSet levelGeoSet = new GeoSet();
this.contourLevel(geoGrid, contourLevel, levelGeoSet);
levelGeoSet.setName(Double.toString(contourLevel));
geoSet.add(levelGeoSet);
}
return geoSet;
}