/** * Robustly make a curve to a front * * @param curve the curve * @param flip true to flip the pips * @return the resulting front as a FieldImpl * @throws RemoteException On badness */ public FieldImpl robustCurveToFront(float[][] curve, boolean flip) throws RemoteException { // resample curve uniformly along length float increment = rsegment_length / (rprofile_length * zoom); float[][] oldCurve = null; try { oldCurve = resample_curve(curve, increment); } catch (VisADError ve) { // bad curve return null; } int fw = filter_window; fw = 1; FieldImpl front = null; float[][] originalCurve = curve; debug = true; for (int tries = 0; tries < 12; tries++) { // lowpass filter curve curve = smooth_curve(oldCurve, fw); // resample smoothed curve curve = resample_curve(curve, increment); try { front = curveToFront(curve, flip); break; } catch (VisADException e) { oldCurve = curve; if (tries > 4) { int n = oldCurve[0].length; if (n > 2) { float[][] no = new float[2][n - 2]; System.arraycopy(oldCurve[0], 1, no[0], 0, n - 2); System.arraycopy(oldCurve[1], 1, no[1], 0, n - 2); oldCurve = no; } } if (tries > 8) { fw = 2 * fw; } // if (debug) System.out.println("retry filter window = " + fw + " " + e); if (tries == 9) { // System.out.println("cannot smooth curve"); front = null; } } } return front; }
public void actionPerformed(ActionEvent e) { String cmd = e.getActionCommand(); if (cmd.equals("del")) { try { UnionSet set = (UnionSet) ref.getData(); SampledSet[] sets = set.getSets(); SampledSet[] new_sets = new SampledSet[sets.length - 1]; System.arraycopy(sets, 0, new_sets, 0, sets.length - 1); ref.setData(new UnionSet(set.getType(), new_sets)); } catch (VisADException ex) { } catch (RemoteException ex) { } } else if (cmd.equals("fill")) { UnionSet set = null; try { set = (UnionSet) ref.getData(); System.out.println("area = " + DelaunayCustom.computeArea(set)); } catch (VisADException ex) { System.out.println(ex.getMessage()); } try { // Irregular2DSet new_set = DelaunayCustom.fill(set); Irregular2DSet new_set = DelaunayCustom.fillCheck(set, false); if (new_ref == null) { new_ref = new DataReferenceImpl("fill"); ConstantMap[] cmaps = new ConstantMap[] { new ConstantMap(1.0, Display.Blue), new ConstantMap(1.0, Display.Red), new ConstantMap(0.0, Display.Green) }; DataRenderer renderer = (display instanceof DisplayImplJ3D) ? (DataRenderer) new DefaultRendererJ3D() : (DataRenderer) new DefaultRendererJ2D(); renderer.suppressExceptions(true); display.addReferences(renderer, new_ref, cmaps); } new_ref.setData(new_set); } catch (VisADException ex) { System.out.println(ex.getMessage()); } catch (RemoteException ex) { System.out.println(ex.getMessage()); } } else if (cmd.equals("lines")) { try { lines = !lines; GraphicsModeControl mode = display.getGraphicsModeControl(); if (lines) { mode.setPolygonMode(DisplayImplJ3D.POLYGON_LINE); } else { mode.setPolygonMode(DisplayImplJ3D.POLYGON_FILL); } } catch (VisADException ex) { System.out.println(ex.getMessage()); } catch (RemoteException ex) { System.out.println(ex.getMessage()); } } }
/** * Set the front state * * @param fsegment length of first segment in graphics coord * @param rsegment length of repeating segment in graphics coord * @param fshapes shapes of the front * @param fred first reds * @param fgreen first greens * @param fblue first blues * @param rshapes repeating shapes * @param rred repeating reds * @param rgreen repeating greens * @param rblue repeating blues * @throws RemoteException On badness * @throws VisADException On badness */ private void setFrontState( float fsegment, float rsegment, float[][][] fshapes, float[] fred, float[] fgreen, float[] fblue, float[][][] rshapes, float[] rred, float[] rgreen, float[] rblue) throws VisADException, RemoteException { fsegment_length = fsegment; rsegment_length = rsegment; nrshapes = rshapes.length; for (int i = 0; i < nrshapes; i++) { if ((rshapes[i] == null) || (rshapes[i].length != 2) || (rshapes[i][0] == null) || (rshapes[i][1] == null) || (rshapes[i][0].length != rshapes[i][1].length)) { throw new VisADException("bad rshapes[" + i + "]"); } } if ((rred == null) || (rred.length != nrshapes) || (rgreen == null) || (rgreen.length != nrshapes) || (rblue == null) || (rblue.length != nrshapes)) { throw new VisADException("bad rcolors"); } repeat_tris = new int[nrshapes][][]; for (int i = 0; i < nrshapes; i++) { repeat_tris[i] = DelaunayCustom.fill(rshapes[i]); } repeat_shapes = new float[nrshapes][2][]; int rlen = 0; for (int i = 0; i < nrshapes; i++) { int n = rshapes[i][0].length; rlen += n; repeat_shapes[i][0] = new float[n]; repeat_shapes[i][1] = new float[n]; System.arraycopy(rshapes[i][0], 0, repeat_shapes[i][0], 0, n); System.arraycopy(rshapes[i][1], 0, repeat_shapes[i][1], 0, n); } rprofile_length = rlen; repeat_red = new float[nrshapes]; repeat_green = new float[nrshapes]; repeat_blue = new float[nrshapes]; System.arraycopy(rred, 0, repeat_red, 0, nrshapes); System.arraycopy(rgreen, 0, repeat_green, 0, nrshapes); System.arraycopy(rblue, 0, repeat_blue, 0, nrshapes); if (fshapes == null) { // if no different first shapes, just use repeat shapes nfshapes = nrshapes; first_tris = repeat_tris; first_shapes = repeat_shapes; first_red = repeat_red; first_green = repeat_green; first_blue = repeat_blue; } else { nfshapes = fshapes.length; for (int i = 0; i < nfshapes; i++) { if ((fshapes[i] == null) || (fshapes[i].length != 2) || (fshapes[i][0] == null) || (fshapes[i][1] == null) || (fshapes[i][0].length != fshapes[i][1].length)) { throw new VisADException("bad fshapes[" + i + "]"); } } if ((fred == null) || (fred.length != nfshapes) || (fgreen == null) || (fgreen.length != nfshapes) || (fblue == null) || (fblue.length != nfshapes)) { throw new VisADException("bad fcolors"); } first_tris = new int[nfshapes][][]; for (int i = 0; i < nfshapes; i++) { first_tris[i] = DelaunayCustom.fill(fshapes[i]); } first_shapes = new float[nfshapes][2][]; int flen = 0; for (int i = 0; i < nfshapes; i++) { int n = fshapes[i][0].length; flen += n; first_shapes[i][0] = new float[n]; first_shapes[i][1] = new float[n]; System.arraycopy(fshapes[i][0], 0, first_shapes[i][0], 0, n); System.arraycopy(fshapes[i][1], 0, first_shapes[i][1], 0, n); } fprofile_length = flen; first_red = new float[nfshapes]; first_green = new float[nfshapes]; first_blue = new float[nfshapes]; System.arraycopy(fred, 0, first_red, 0, nfshapes); System.arraycopy(fgreen, 0, first_green, 0, nfshapes); System.arraycopy(fblue, 0, first_blue, 0, nfshapes); } if (rprofile_length < 5) { rprofile_length = 5; } if (fprofile_length < 5) { fprofile_length = 5; } }