// type 'java Parallel' to run this application public static void main(String args[]) throws VisADException, RemoteException, IOException { RealType index = RealType.getRealType("index"); RealType[] coords = new RealType[NCOORDS]; for (int i = 0; i < NCOORDS; i++) { coords[i] = RealType.getRealType("coord" + i); } RealTupleType range = new RealTupleType(coords); FunctionType ftype = new FunctionType(index, range); Integer1DSet index_set = new Integer1DSet(NROWS); float[][] samples = new float[NCOORDS][NROWS]; for (int i = 0; i < NCOORDS; i++) { for (int j = 0; j < NROWS; j++) { samples[i][j] = (float) Math.random(); } } FlatField data = new FlatField(ftype, index_set); data.setSamples(samples, false); // create a 2-D Display using Java3D DisplayImpl display = new DisplayImplJ3D("display", new TwoDDisplayRendererJ3D()); parallel(display, data); // create JFrame (i.e., a window) for display and slider JFrame frame = new JFrame("Parallel Coordinates VisAD Application"); frame.addWindowListener( new WindowAdapter() { public void windowClosing(WindowEvent e) { System.exit(0); } }); // create JPanel in JFrame JPanel panel = new JPanel(); panel.setLayout(new BoxLayout(panel, BoxLayout.Y_AXIS)); panel.setAlignmentY(JPanel.TOP_ALIGNMENT); panel.setAlignmentX(JPanel.LEFT_ALIGNMENT); frame.getContentPane().add(panel); // add display to JPanel panel.add(display.getComponent()); // set size of JFrame and make it visible frame.setSize(500, 500); frame.setVisible(true); }
/** * Set <CODE>Vector</CODE> of <CODE>String</CODE>s describing the cursor location from the cursor * location; this is invoked when the cursor location changes or the cursor display status changes */ public void setCursorStringVector() { synchronized (cursorStringVector) { cursorStringVector.removeAllElements(); float[][] cursor = new float[3][1]; double[] cur = getCursor(); cursor[0][0] = (float) cur[0]; cursor[1][0] = (float) cur[1]; cursor[2][0] = (float) cur[2]; Enumeration maps = display.getMapVector().elements(); while (maps.hasMoreElements()) { try { ScalarMap map = (ScalarMap) maps.nextElement(); DisplayRealType dreal = map.getDisplayScalar(); DisplayTupleType tuple = dreal.getTuple(); int index = dreal.getTupleIndex(); if (tuple != null && (tuple.equals(Display.DisplaySpatialCartesianTuple) || (tuple.getCoordinateSystem() != null && tuple .getCoordinateSystem() .getReference() .equals(Display.DisplaySpatialCartesianTuple)))) { float[] fval = new float[1]; if (tuple.equals(Display.DisplaySpatialCartesianTuple)) { fval[0] = cursor[index][0]; } else { float[][] new_cursor = tuple.getCoordinateSystem().fromReference(cursor); fval[0] = new_cursor[index][0]; } float[] dval = map.inverseScaleValues(fval); RealType real = (RealType) map.getScalar(); // WLH 31 Aug 2000 Real r = new Real(real, dval[0]); Unit overrideUnit = map.getOverrideUnit(); Unit rtunit = real.getDefaultUnit(); // units not part of Time string // DRM 2003-08-19: don't check for equality since toString // may be different if (overrideUnit != null && // !overrideUnit.equals(rtunit) && (!Unit.canConvert(rtunit, CommonUnit.secondsSinceTheEpoch) || rtunit.getAbsoluteUnit().equals(rtunit))) { dval[0] = (float) overrideUnit.toThis((double) dval[0], rtunit); r = new Real(real, dval[0], overrideUnit); } String valueString = r.toValueString(); // WLH 27 Oct 2000 String s = map.getScalarName() + " = " + valueString; // String s = real.getName() + " = " + valueString; cursorStringVector.addElement(s); } // end if (tuple != null && ...) } catch (VisADException e) { } } // end while(maps.hasMoreElements()) } // end synchronized (cursorStringVector) render_trigger(); }
/** * Set the <I>wait flag</I> to the specified value. (When the <I>wait flag</I> is enabled, the * user is informed that the application is busy, typically by displaying a <B><TT>Please wait . . * .</TT></B> message at the bottom of the <CODE>Display</CODE>.) DisplayEvent.WAIT_ON and * DisplayEvent.WAIT_OFF events are fired based on value of b. * * @param b Boolean value to which <I>wait flag</I> is set. */ public void setWaitFlag(boolean b) { waitFlag = b; try { DisplayEvent e = new DisplayEvent(display, (b == true) ? DisplayEvent.WAIT_ON : DisplayEvent.WAIT_OFF); display.notifyListeners(e); } catch (VisADException e) { } catch (RemoteException e) { } }
/** create parallel coordinates display for data */ public static void parallel(DisplayImpl display, FlatField data) throws VisADException, RemoteException { FunctionType ftype = (FunctionType) data.getType(); RealType index = (RealType) ftype.getDomain().getComponent(0); RealTupleType range = (RealTupleType) ftype.getRange(); int ncoords = range.getDimension(); int nrows = data.getLength(); Set index_set = data.getDomainSet(); float[][] samples = data.getFloats(false); RealType x = RealType.getRealType("coordinate"); RealType y = RealType.getRealType("value"); SetType xy = new SetType(new RealTupleType(x, y)); FunctionType ptype = new FunctionType(index, xy); FieldImpl pfield = new FieldImpl(ptype, index_set); for (int j = 0; j < nrows; j++) { float[][] locs = new float[2][ncoords]; for (int i = 0; i < ncoords; i++) { locs[0][i] = i; locs[1][i] = samples[i][j]; } Gridded2DSet set = new Gridded2DSet(xy, locs, ncoords); pfield.setSample(j, set, false); } // create a DataReference for river system DataReference parallel_ref = new DataReferenceImpl("parallel"); parallel_ref.setData(pfield); display.addMap(new ScalarMap(x, Display.XAxis)); display.addMap(new ScalarMap(y, Display.YAxis)); // enable axis scales display.getGraphicsModeControl().setScaleEnable(true); // link display to parallel display display.addReference(parallel_ref); }
/** * Specify <CODE>DisplayImpl</CODE> to be rendered. * * @param d <CODE>Display</CODE> to render. * @exception VisADException If a <CODE>DisplayImpl</CODE> has already been specified. */ public void setDisplay(DisplayImpl d) throws VisADException { if (display != null) { throw new DisplayException("DisplayRenderer.setDisplay: " + "display already set"); } display = d; // reinitialize rendererControl if (rendererControl == null) { rendererControl = new RendererControl(display); initControl(rendererControl); } else { RendererControl rc = new RendererControl(display); rc.syncControl(rendererControl); rendererControl = rc; } rendererControl.addControlListener(this); display.addControl(rendererControl); }
/** * run 'java FlowTest middle_latitude' to test with (lat, lon) run 'java FlowTest middle_latitude * x' to test with (lon, lat) adjust middle_latitude for south or north */ public static void main(String args[]) throws VisADException, RemoteException { double mid_lat = -10.0; if (args.length > 0) { try { mid_lat = Double.valueOf(args[0]).doubleValue(); } catch (NumberFormatException e) { } } boolean swap = (args.length > 1); RealType lat = RealType.Latitude; RealType lon = RealType.Longitude; RealType[] types; if (swap) { types = new RealType[] {lon, lat}; } else { types = new RealType[] {lat, lon}; } RealTupleType earth_location = new RealTupleType(types); System.out.println("earth_location = " + earth_location + " mid_lat = " + mid_lat); RealType flowx = RealType.getRealType("flowx", CommonUnit.meterPerSecond); RealType flowy = RealType.getRealType("flowy", CommonUnit.meterPerSecond); RealType red = RealType.getRealType("red"); RealType green = RealType.getRealType("green"); EarthVectorType flowxy = new EarthVectorType(flowx, flowy); TupleType range = null; range = new TupleType(new MathType[] {flowxy, red, green}); FunctionType flow_field = new FunctionType(earth_location, range); DisplayImpl display = new DisplayImplJ3D("display1", new TwoDDisplayRendererJ3D()); ScalarMap xmap = new ScalarMap(lon, Display.XAxis); display.addMap(xmap); ScalarMap ymap = new ScalarMap(lat, Display.YAxis); display.addMap(ymap); ScalarMap flowx_map = new ScalarMap(flowx, Display.Flow1X); display.addMap(flowx_map); flowx_map.setRange(-10.0, 10.0); ScalarMap flowy_map = new ScalarMap(flowy, Display.Flow1Y); display.addMap(flowy_map); flowy_map.setRange(-10.0, 10.0); FlowControl flow_control = (FlowControl) flowy_map.getControl(); flow_control.setFlowScale(0.05f); display.addMap(new ScalarMap(red, Display.Red)); display.addMap(new ScalarMap(green, Display.Green)); display.addMap(new ConstantMap(1.0, Display.Blue)); double lonlow = -10.0; double lonhi = 10.0; double latlow = mid_lat - 10.0; double lathi = mid_lat + 10.0; Linear2DSet set; if (swap) { set = new Linear2DSet(earth_location, lonlow, lonhi, N, latlow, lathi, N); } else { set = new Linear2DSet(earth_location, latlow, lathi, N, lonlow, lonhi, N); } double[][] values = new double[4][N * N]; int m = 0; for (int i = 0; i < N; i++) { for (int j = 0; j < N; j++) { int k = i; int l = j; if (swap) { k = j; l = i; } double u = (N - 1.0) / 2.0 - l; double v = k - (N - 1.0) / 2.0; // double u = 2.0 * k / (N - 1.0) - 1.0; // double v = 2.0 * l / (N - 1.0); double fx = 6.0 * u; double fy = 6.0 * v; values[0][m] = fx; values[1][m] = fy; values[2][m] = u; values[3][m] = v; m++; } } FlatField field = new FlatField(flow_field, set); field.setSamples(values); DataReferenceImpl ref = new DataReferenceImpl("ref"); ref.setData(field); display.addReference(ref); // create JFrame (i.e., a window) for display and slider JFrame frame = new JFrame("test FlowTest"); frame.addWindowListener( new WindowAdapter() { public void windowClosing(WindowEvent e) { System.exit(0); } }); // create JPanel in JFrame JPanel panel = new JPanel(); panel.setLayout(new BoxLayout(panel, BoxLayout.Y_AXIS)); panel.setAlignmentY(JPanel.TOP_ALIGNMENT); panel.setAlignmentX(JPanel.LEFT_ALIGNMENT); frame.getContentPane().add(panel); // add display to JPanel panel.add(display.getComponent()); // set size of JFrame and make it visible frame.setSize(500, 500); frame.setVisible(true); }