public static void putType(GeoWriter writer, bool l2j, byte type) { if (l2j) { writer.put(type); } else { switch (type) { case GeoEngine.GEO_BLOCK_TYPE_FLAT: writer.putShort((short)0x0000); break; case GeoEngine.GEO_BLOCK_TYPE_COMPLEX: writer.putShort((short)0x0040); break; case GeoEngine.GEO_BLOCK_TYPE_MULTILAYER: writer.putShort((short)0x0080); // TODO check this break; default: throw new ArgumentException("Unkown type: " + type); } } }
public override void writeTo(GeoWriter writer, bool l2j) { GeoCell[] layers; GeoRegion.putType(writer, l2j, getType()); for (int x = 0, y, z; x < GeoEngine.GEO_BLOCK_SHIFT; x++) { for (y = 0; y < GeoEngine.GEO_BLOCK_SHIFT; y++) { layers = _cells3D[x, y]; if (l2j) { writer.put((byte)layers.Length); } else { writer.putShort((short)layers.Length); } // for (z = layers.Length; z-- > 0;) { writer.putShort(layers[z].getHeightAndNSWE()); } } } }
public override void writeTo(GeoWriter writer, bool l2j) { GeoRegion.putType(writer, l2j, getType()); writer.putShort(_cells[0].getHeight()); if (!l2j) { writer.putShort(_cells[0].getHeight()); } }
public override void writeTo(GeoWriter writer, bool l2j) { GeoRegion.putType(writer, l2j, getType()); for (int x = 0, y; x < GeoEngine.GEO_BLOCK_SHIFT; x++) { for (y = 0; y < GeoEngine.GEO_BLOCK_SHIFT; y++) { writer.putShort(_cells[indexOf(x, y)].getHeightAndNSWE()); } } }