Ejemplo n.º 1
0
 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());
     }
   }
 }
Ejemplo n.º 2
0
  /**
   * Construct a satellite display using the specified McIDAS map file, image source. The image can
   * be displayed on a 3D globe or on a flat rectillinear projection.
   *
   * @param mapFile location of the McIDAS map file (path or URL)
   * @param imageSource location of the image source (path or URL)
   * @param display3D if true, use 3D display, otherwise flat rectillinear
   * @param remap remap the image into a domain over North America
   */
  public SatDisplay(String mapFile, String imageSource, boolean display3D, boolean remap) {
    try {
      //  Read in the map file
      BaseMapAdapter baseMapAdapter;
      if (mapFile.indexOf("://") > 0) // URL specified
      {
        baseMapAdapter = new BaseMapAdapter(new URL(mapFile));
      } else // local disk file
      {
        baseMapAdapter = new BaseMapAdapter(mapFile);
      }

      // Create the display and set up the scalar maps to map
      // data to the display
      ScalarMap latMap; // latitude  -> YAxis
      ScalarMap lonMap; // longitude -> XAxis
      if (display3D) {
        display = new DisplayImplJ3D("display");
        latMap = new ScalarMap(RealType.Latitude, Display.Latitude);
        lonMap = new ScalarMap(RealType.Longitude, Display.Longitude);
      } else {
        display = new DisplayImplJ3D("display", new TwoDDisplayRendererJ3D());
        latMap = new ScalarMap(RealType.Latitude, Display.YAxis);
        lonMap = new ScalarMap(RealType.Longitude, Display.XAxis);
      }
      display.addMap(latMap);
      display.addMap(lonMap);

      // set the display to a global scale
      latMap.setRange(-90.0, 90.0);
      lonMap.setRange(-180.0, 180.0);

      // create a reference for the map line
      DataReference maplinesRef = new DataReferenceImpl("MapLines");
      maplinesRef.setData(baseMapAdapter.getData());

      // set the attributes of the map lines (color, location)
      ConstantMap[] maplinesConstantMap = new ConstantMap[4];
      maplinesConstantMap[0] = new ConstantMap(0., Display.Blue);
      maplinesConstantMap[1] = new ConstantMap(1., Display.Red);
      maplinesConstantMap[2] = new ConstantMap(0., Display.Green);
      maplinesConstantMap[3] = new ConstantMap(1.001, Display.Radius); // just above the image

      // read in the image
      AreaAdapter areaAdapter = new AreaAdapter(imageSource);
      FlatField image = areaAdapter.getData();

      // Extract the metadata from the image
      FunctionType imageFunctionType = (FunctionType) image.getType();
      RealTupleType imageDomainType = imageFunctionType.getDomain();
      RealTupleType imageRangeType = (RealTupleType) imageFunctionType.getRange();

      // remap and resample the image
      if (remap) {
        int SIZE = 256;
        RealTupleType latlonType =
            ((CoordinateSystem) imageDomainType.getCoordinateSystem()).getReference();
        Linear2DSet remapDomainSet =
            new Linear2DSet(latlonType, -4.0, 70.0, SIZE, -150.0, 5.0, SIZE);
        image = (FlatField) image.resample(remapDomainSet, Data.NEAREST_NEIGHBOR, Data.NO_ERRORS);
      }

      // select which band to show...
      ScalarMap rgbMap = new ScalarMap((RealType) imageRangeType.getComponent(0), Display.RGB);
      display.addMap(rgbMap);

      // set the enhancement to a grey scale
      ColorControl colorControl = (ColorControl) rgbMap.getControl();
      colorControl.initGreyWedge();

      // create a data reference for the image
      DataReferenceImpl imageRef = new DataReferenceImpl("ImageRef");
      imageRef.setData(image);

      // add the data references to the display
      display.disableAction();
      drmap = new DefaultRendererJ3D();
      drimage = new DefaultRendererJ3D();
      drmap.toggle(false);
      drimage.toggle(false);
      display.addDisplayListener(this);

      display.addReferences(drmap, maplinesRef, maplinesConstantMap);
      display.addReferences(drimage, imageRef, null);
      display.enableAction();
    } catch (Exception ne) {
      ne.printStackTrace();
      System.exit(1);
    }
  }
Ejemplo n.º 3
0
  /** test BarbManipulationRendererJ3D */
  public static void main(String args[]) throws VisADException, RemoteException {

    System.out.println("BMR.main()");

    // construct RealTypes for wind record components
    RealType lat = RealType.Latitude;
    RealType lon = RealType.Longitude;
    RealType windx = RealType.getRealType("windx", CommonUnit.meterPerSecond);
    RealType windy = RealType.getRealType("windy", CommonUnit.meterPerSecond);
    RealType red = RealType.getRealType("red");
    RealType green = RealType.getRealType("green");

    // EarthVectorType extends RealTupleType and says that its
    // components are vectors in m/s with components parallel
    // to Longitude (positive east) and Latitude (positive north)
    EarthVectorType windxy = new EarthVectorType(windx, windy);

    RealType wind_dir = RealType.getRealType("wind_dir", CommonUnit.degree);
    RealType wind_speed = RealType.getRealType("wind_speed", CommonUnit.meterPerSecond);
    RealTupleType windds = null;
    if (args.length > 0) {
      System.out.println("polar winds");
      windds =
          new RealTupleType(
              new RealType[] {wind_dir, wind_speed}, new WindPolarCoordinateSystem(windxy), null);
    }

    // construct Java3D display and mappings that govern
    // how wind records are displayed
    DisplayImpl display = new DisplayImplJ3D("display1", new TwoDDisplayRendererJ3D());
    ScalarMap lonmap = new ScalarMap(lon, Display.XAxis);
    display.addMap(lonmap);
    ScalarMap latmap = new ScalarMap(lat, Display.YAxis);
    display.addMap(latmap);

    FlowControl flow_control;
    if (args.length > 0) {
      ScalarMap winds_map = new ScalarMap(wind_speed, Display.Flow1Radial);
      display.addMap(winds_map);
      winds_map.setRange(0.0, 1.0); // do this for barb rendering
      ScalarMap windd_map = new ScalarMap(wind_dir, Display.Flow1Azimuth);
      display.addMap(windd_map);
      windd_map.setRange(0.0, 360.0); // do this for barb rendering
      flow_control = (FlowControl) windd_map.getControl();
      flow_control.setFlowScale(0.15f); // this controls size of barbs
    } else {
      ScalarMap windx_map = new ScalarMap(windx, Display.Flow1X);
      display.addMap(windx_map);
      windx_map.setRange(-1.0, 1.0); // do this for barb rendering
      ScalarMap windy_map = new ScalarMap(windy, Display.Flow1Y);
      display.addMap(windy_map);
      windy_map.setRange(-1.0, 1.0); // do this for barb rendering
      flow_control = (FlowControl) windy_map.getControl();
      flow_control.setFlowScale(0.15f); // this controls size of barbs
    }

    display.addMap(new ScalarMap(red, Display.Red));
    display.addMap(new ScalarMap(green, Display.Green));
    display.addMap(new ConstantMap(1.0, Display.Blue));

    DataReferenceImpl[] refs = new DataReferenceImpl[N * N];
    int k = 0;
    // create an array of N by N winds
    for (int i = 0; i < N; i++) {
      for (int j = 0; j < N; j++) {
        double u = 2.0 * i / (N - 1.0) - 1.0;
        double v = 2.0 * j / (N - 1.0) - 1.0;

        // each wind record is a Tuple (lon, lat, (windx, windy), red, green)
        // set colors by wind components, just for grins
        Tuple tuple;
        double fx = 30.0 * u;
        double fy = 30.0 * v;
        if (args.length > 0) {
          double fd = Data.RADIANS_TO_DEGREES * Math.atan2(-fx, -fy);
          double fs = Math.sqrt(fx * fx + fy * fy);
          tuple =
              new Tuple(
                  new Data[] {
                    new Real(lon, 10.0 * u),
                    new Real(lat, 10.0 * v - 40.0),
                    new RealTuple(windds, new double[] {fd, fs}),
                    new Real(red, u),
                    new Real(green, v)
                  });
        } else {
          tuple =
              new Tuple(
                  new Data[] {
                    new Real(lon, 10.0 * u),
                    new Real(lat, 10.0 * v - 40.0),
                    new RealTuple(windxy, new double[] {fx, fy}),
                    new Real(red, u),
                    new Real(green, v)
                  });
        }

        // construct reference for wind record
        refs[k] = new DataReferenceImpl("ref_" + k);
        refs[k].setData(tuple);

        // link wind record to display via BarbManipulationRendererJ3D
        // so user can change barb by dragging it
        // drag with right mouse button and shift to change direction
        // drag with right mouse button and no shift to change speed
        BarbManipulationRendererJ3D renderer = new BarbManipulationRendererJ3D();
        renderer.setKnotsConvert(true);
        display.addReferences(renderer, refs[k]);

        // link wind record to a CellImpl that will listen for changes
        // and print them
        WindGetterJ3D cell = new WindGetterJ3D(flow_control, refs[k]);
        cell.addReference(refs[k]);

        k++;
      }
    }

    // instead of linking the wind record "DataReferenceImpl refs" to
    // the WindGetterJ3Ds, you can have some user interface event (e.g.,
    // the user clicks on "DONE") trigger code that does a getData() on
    // all the refs and stores the records in a file.

    // create JFrame (i.e., a window) for display and slider
    JFrame frame = new JFrame("test BarbManipulationRendererJ3D");
    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);
  }
Ejemplo n.º 4
0
  /**
   * run 'java visad.bom.ImageRendererJ3D len step' to test animation behavior of ImageRendererJ3D
   * renders a loop of len at step ms per frame then updates loop by deleting first time and adding
   * a new last time
   */
  public static void main(String args[]) throws VisADException, RemoteException, IOException {

    int step = 1000;
    int len = 3;
    if (args.length > 0) {
      try {
        len = Integer.parseInt(args[0]);
      } catch (NumberFormatException e) {
        len = 3;
      }
    }
    if (len < 1) len = 1;
    if (args.length > 1) {
      try {
        step = Integer.parseInt(args[1]);
      } catch (NumberFormatException e) {
        step = 1000;
      }
    }
    if (step < 1) step = 1;

    // create a netCDF reader
    Plain plain = new Plain();

    // open a netCDF file containing an image sequence and adapt
    // it to a Field Data object
    Field raw_image_sequence = null;
    try {
      // raw_image_sequence = (Field) plain.open("images256x256.nc");
      raw_image_sequence = (Field) plain.open("images.nc");
    } catch (IOException exc) {
      String s =
          "To run this example, the images.nc file must be "
              + "present in\nthe current directory."
              + "You can obtain this file from:\n"
              + "  ftp://www.ssec.wisc.edu/pub/visad-2.0/images.nc.Z";
      System.out.println(s);
      System.exit(0);
    }

    // just take first half of raw_image_sequence
    FunctionType image_sequence_type = (FunctionType) raw_image_sequence.getType();
    Set raw_set = raw_image_sequence.getDomainSet();
    float[][] raw_times = raw_set.getSamples();
    int raw_len = raw_times[0].length;
    if (raw_len != 4) {
      throw new VisADException("wrong number of images in sequence");
    }
    float raw_span = (4.0f / 3.0f) * (raw_times[0][3] - raw_times[0][0]);

    double[][] times = new double[1][len];
    for (int i = 0; i < len; i++) {
      times[0][i] = raw_times[0][i % raw_len] + raw_span * (i / raw_len);
    }
    Gridded1DDoubleSet set = new Gridded1DDoubleSet(raw_set.getType(), times, len);
    Field image_sequence = new FieldImpl(image_sequence_type, set);
    for (int i = 0; i < len; i++) {
      image_sequence.setSample(i, raw_image_sequence.getSample(i % raw_len));
    }

    // create a DataReference for image sequence
    final DataReference image_ref = new DataReferenceImpl("image");
    image_ref.setData(image_sequence);

    // create a Display using Java3D
    DisplayImpl display = new DisplayImplJ3D("image display");

    // extract the type of image and use
    // it to determine how images are displayed
    FunctionType image_type = (FunctionType) image_sequence_type.getRange();
    RealTupleType domain_type = image_type.getDomain();
    // map image coordinates to display coordinates
    display.addMap(new ScalarMap((RealType) domain_type.getComponent(0), Display.XAxis));
    display.addMap(new ScalarMap((RealType) domain_type.getComponent(1), Display.YAxis));
    // map image brightness values to RGB (default is grey scale)
    display.addMap(new ScalarMap((RealType) image_type.getRange(), Display.RGB));
    RealType hour_type = (RealType) image_sequence_type.getDomain().getComponent(0);
    ScalarMap animation_map = new ScalarMap(hour_type, Display.Animation);
    display.addMap(animation_map);
    AnimationControl animation_control = (AnimationControl) animation_map.getControl();
    animation_control.setStep(step);
    animation_control.setOn(true);

    /*
        // link the Display to image_ref
        ImageRendererJ3D renderer = new ImageRendererJ3D();
        display.addReferences(renderer, image_ref);
        // display.addReference(image_ref);
    */

    // create JFrame (i.e., a window) for display and slider
    JFrame frame = new JFrame("ImageRendererJ3D test");
    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);

    System.out.println("first animation sequence");
    // link the Display to image_ref
    ImageRendererJ3D renderer = new ImageRendererJ3D();
    display.addReferences(renderer, image_ref);
    // display.addReference(image_ref);

    // wait 4 * len seconds
    new Delay(len * 4000);

    // substitute a new image sequence for the old one
    for (int i = 0; i < len; i++) {
      times[0][i] = raw_times[0][(i + 1) % raw_len] + raw_span * ((i + 1) / raw_len);
    }
    set = new Gridded1DDoubleSet(raw_set.getType(), times, len);
    FieldImpl new_image_sequence = new FieldImpl(image_sequence_type, set);
    for (int i = 0; i < len; i++) {
      new_image_sequence.setSample(i, raw_image_sequence.getSample((i + 1) % raw_len));
    }

    System.out.println("second animation sequence");

    // tell renderer to resue frames in its scene graph
    renderer.setReUseFrames(true);
    image_ref.setData(new_image_sequence);
  }