private double findCurvature(InputCursor in) { if (in.getEventCount() < 3) return 0.0f; List<AbstractCursorInputEvt> events = in.getEvents(); AbstractCursorInputEvt posEvt = events.get(events.size() - 1); AbstractCursorInputEvt prev = events.get(events.size() - 2); AbstractCursorInputEvt prev2 = events.get(events.size() - 3); if (prev == null) return 0; if (prev2 == null) return 0; return findCurvature( posEvt.getPosX(), posEvt.getPosY(), prev.getPosX(), prev.getPosY(), prev2.getPosX(), prev2.getPosY()); }
@Override public void update(InputCursor in) { double val = 0.0f; val = (float) (findCurvature(in) / (Math.PI)); pastValues.add(new double[] {val}); // filter, no. average? Yes. // float pastEvtCount = in.getEvents(10).size(); // val = (currentValue*pastEvtCount + val)/(pastEvtCount+1); // int size = in.getEvents(200).size(); // //if (size > 2) { //this is the.... other method. using least squares. // if (size < 0) { //nonsense, for now. // //size=3; // double[][] b = new double[size][2]; // double[][] a = new double[size][2]; // int pastValuesSize = pastValues.size(); // System.out.println("Size of pastValuesL: "+pastValuesSize+" Size of b:"+size); // for (int x = 0; x < size; x++) { // b[x][0] = pastValues.get(pastValuesSize-x-1)[0]; // b[x][1] = size-x; // a[x][0] = 1; // a[x][1] = x+1; // } // // // Matrix A = new Matrix(a); // Matrix B = new Matrix(b); // System.out.println("A: "+A+" B:"+B); // Matrix sol = A.solve(B); // System.out.println(sol); // for (double[] row : sol.getArray()) // System.out.println("Row: ["+row[0]+","+row[1]+"]"); // val = (float) sol.getArray()[0][0]; // } // if (size > 2) { // // } // this is the spline method http://www.faculty.idc.ac.il/arik/Java/ex2/index.html int n = 15; List<AbstractCursorInputEvt> past = in.getEvents(); int sizeofpast = in.getEvents().size(); if (sizeofpast > n) { Point2D[] s = new Point2D[n + 1]; for (int i = 0; i < n + 1; i++) { AbstractCursorInputEvt p = past.get(sizeofpast - i - 1); s[i] = new Point2D.Double(p.getPosX(), p.getPosY()); } Point2D p2, p1, p0; p0 = s[0]; p1 = Geometry.evalBezier(s, 0.1); p2 = Geometry.evalBezier(s, 0.2); val = findCurvature(p0.getX(), p0.getY(), p1.getX(), p1.getY(), p2.getX(), p2.getY()); } // System.out.println("Curvature: "+val); // filter.correct(new Matrix(new double[][]{{val}})); // filter.predict(); // System.out.println("0:"+filter.getX().get(0,0)); // System.out.println("1:"+filter.getX().get(1,0)); // System.out.println("2:"+filter.getX().get(2,0)); // val = (float) filter.getX().get(0,0); // System.out.println("Curvature: "+val); currentValue = val; engine.gestureQualityChange(name, (float) val, in); }