@Override public A get(int x, int y) { if ((x >= base.lowX() && x < base.highX()) && (y >= base.lowY() && y < base.highY())) { return base.get(x, y); // Its inside } else if ((x == base.lowX() - 1 || x == base.highX() + 1) && (y >= base.lowY() - 1 && y < base.highY() + 1)) { return pad; // Its immediate above or below } else if ((y == base.lowY() - 1 || y == base.highY() + 1) && (x >= base.lowX() - 1 && x < base.highX() + 1)) { return pad; // Its immediately left or right } else { return base.defaultValue(); } }
/** * Build a single path from all of the contour parts. * * <p>May be disjoint and have holes (thus GeneralPath). * * @param classified The line-segment classifiers * @param isoDivided Original classification, used to disambiguate saddle conditions * @return Resulting contour */ public static final GeneralPath assembleContours( Aggregates<MC_TYPE> classified, Aggregates<Boolean> isoDivided) { GeneralPath isoPath = new GeneralPath(GeneralPath.WIND_EVEN_ODD); // Find an unambiguous case of an actual line, follow it around and build the line. // Stitching sets the line segments that have been "consumed" to MC_TYPE.empty, so segments // are only processed once. for (int x = classified.lowX(); x < classified.highX(); x++) { for (int y = classified.lowY(); y < classified.highY(); y++) { MC_TYPE type = classified.get(x, y); if (type != MC_TYPE.empty && type != MC_TYPE.surround && type != MC_TYPE.diag_one && type != MC_TYPE.diag_two) { stichContour(classified, isoDivided, isoPath, x, y); } } } return isoPath; }
@Override public int lowX() { return base.lowX(); }
public int lowX() { return base.lowX() - 1; }