private float getArea(Point2DInteger area) { float longitude1 = 1.0f * area.getX() / elementsPerDegree; float latitude1 = 90 - 1.0f * area.getY() / elementsPerDegree; float longitude2 = 1.0f * (area.getX() + 1) / elementsPerDegree; float latitude2 = 90 - 1.0f * (area.getY() + 1) / elementsPerDegree; Point3DDouble dist11 = conv.positionDeg(latitude1, longitude1, 0); Point3DDouble dist12 = conv.positionDeg(latitude1, longitude2, 0); Point3DDouble dist21 = conv.positionDeg(latitude2, longitude1, 0); double distX = dist11.distance(dist12); double distY = dist11.distance(dist21); return (float) (distX * distY); }
private void loop() { float max = 0; int counter = 0; while (nodes.size() != 0) { Point2DInteger n = nodes.peek(); ArrayList<Point2DInteger> children = FlowDirectionUtils.getUpstreamNodes(n, flowDirection); if (children.size() == 0) { flowAccumulation.set(n.getX(), n.getY(), 0); nodes.pop(); } else { float sum = 0; boolean hasUndefined = false; for (Point2DInteger p : children) { float acc = flowAccumulation.get(p.getX(), p.getY()); if (Float.isNaN(acc)) { hasUndefined = true; nodes.add(p); } else { sum += acc; sum += getArea(p); } } if (!hasUndefined) { max = Math.max(max, sum); flowAccumulation.set(n.getX(), n.getY(), sum); nodes.pop(); } } counter++; if ((counter & 0xffff) == 0xffff) { System.out.println("FlowAcc " + counter + " " + max); } } System.out.println("Done"); }