Exemplo n.º 1
0
  void setupServerData(LocalDisplay[] dpys) throws RemoteException, VisADException {
    Unit super_degree = CommonUnit.degree.scale(2.5);
    RealType lon = RealType.getRealType("lon", super_degree);

    DataReference ref = loadFile();
    if (ref == null) {
      System.err.println("must specify netCDF file name");
      System.exit(1);
      return;
    }

    FieldImpl netcdf_data = (FieldImpl) ref.getData();

    // compute ScalarMaps from type components
    FunctionType ftype = (FunctionType) netcdf_data.getType();
    RealTupleType dtype = ftype.getDomain();
    MathType rntype = ftype.getRange();
    int n = dtype.getDimension();
    dpys[0].addMap(new ScalarMap((RealType) dtype.getComponent(0), Display.XAxis));
    if (n > 1) {
      dpys[0].addMap(new ScalarMap((RealType) dtype.getComponent(1), Display.YAxis));
    }
    if (n > 2) {
      dpys[0].addMap(new ScalarMap((RealType) dtype.getComponent(2), Display.ZAxis));
    }
    if (rntype instanceof RealType) {
      dpys[0].addMap(new ScalarMap((RealType) rntype, Display.Green));
      if (n <= 2) {
        dpys[0].addMap(new ScalarMap((RealType) rntype, Display.ZAxis));
      }
    } else if (rntype instanceof RealTupleType) {
      int m = ((RealTupleType) rntype).getDimension();
      RealType rr = (RealType) ((RealTupleType) rntype).getComponent(0);
      dpys[0].addMap(new ScalarMap(rr, Display.Green));
      if (n <= 2) {
        if (m > 1) {
          rr = (RealType) ((RealTupleType) rntype).getComponent(1);
        }
        dpys[0].addMap(new ScalarMap(rr, Display.ZAxis));
      }
    }
    dpys[0].addMap(new ConstantMap(0.5, Display.Red));
    dpys[0].addMap(new ConstantMap(0.0, Display.Blue));

    dpys[0].addReference(ref, null);

    System.out.println("now saving data as 'save.nc' and re-reading");

    Plain plain = new Plain();
    try {
      plain.save("save.nc", netcdf_data, true);
      netcdf_data = (FieldImpl) plain.open("save.nc");
    } catch (IOException e) {
      System.err.println("Couldn't open \"save.nc\": " + e.getMessage());
      System.exit(1);
      return;
    }
  }
Exemplo n.º 2
0
  void setupServerData(LocalDisplay[] dpys) throws RemoteException, VisADException {
    RealType[] time = {RealType.Time};
    RealType[] types = {RealType.Latitude, RealType.Longitude};
    RealTupleType earth_location = new RealTupleType(types);
    RealType vis_radiance = RealType.getRealType("vis_radiance");
    RealType ir_radiance = RealType.getRealType("ir_radiance");
    RealType[] types2 = {vis_radiance, ir_radiance};
    RealTupleType radiance = new RealTupleType(types2);
    FunctionType image_tuple = new FunctionType(earth_location, radiance);
    RealType[] types4 = {ir_radiance, vis_radiance};
    RealTupleType ecnaidar = new RealTupleType(types4);
    FunctionType image_bumble = new FunctionType(earth_location, ecnaidar);
    RealTupleType time_type = new RealTupleType(time);
    FunctionType time_images = new FunctionType(time_type, image_tuple);

    int size = 64;
    FlatField imaget1 = FlatField.makeField(image_tuple, size, false);
    FlatField wasp = FlatField.makeField(image_bumble, size, false);

    int ntimes1 = 4;

    double start = new DateTime(1999, 122, 57060).getValue();
    Set time_set = new Linear1DSet(time_type, start, start + 3600.0 * (ntimes1 - 1.0), ntimes1);

    FieldImpl image_sequence = new FieldImpl(time_images, time_set);
    FlatField temp = imaget1;
    Real[] reals30 = {
      new Real(vis_radiance, (float) size / 4.0f), new Real(ir_radiance, (float) size / 8.0f)
    };
    RealTuple val = new RealTuple(reals30);
    for (int i = 0; i < ntimes1; i++) {
      image_sequence.setSample(i, temp);
      temp = (FlatField) temp.add(val);
    }

    dpys[0].addMap(new ScalarMap(RealType.Latitude, Display.YAxis));
    dpys[0].addMap(new ScalarMap(RealType.Longitude, Display.XAxis));
    dpys[0].addMap(new ScalarMap(vis_radiance, Display.Red));
    dpys[0].addMap(new ScalarMap(ir_radiance, Display.Green));
    dpys[0].addMap(new ConstantMap(0.5, Display.Blue));
    dpys[0].addMap(new ScalarMap(RealType.Time, Display.ZAxis));

    GraphicsModeControl mode = dpys[0].getGraphicsModeControl();
    mode.setScaleEnable(true);

    DataReference ref_image_sequence = new DataReferenceImpl("ref_big_tuple");
    ref_image_sequence.setData(image_sequence);
    dpys[0].addReference(ref_image_sequence, null);
  }
Exemplo n.º 3
0
  /**
   * Create e field description from the field
   *
   * @param fi field to use
   */
  protected void makeFieldDescription(FieldImpl fi) {
    if (fi == null) {
      fieldsDescription = "Bad data: null";
      return;
    }
    try {
      if (ucar.unidata.data.grid.GridUtil.isTimeSequence(fi)) {
        fi = (FieldImpl) fi.getSample(0);
      }
      PointOb ob = (PointOb) fi.getSample(0);
      Tuple tuple = (Tuple) ob.getData();
      MathType[] comps = ((TupleType) tuple.getType()).getComponents();
      Trace.msg("PointDataSource #vars=" + comps.length);
      StringBuffer params = new StringBuffer(comps.length + " Fields:<ul>");
      String dataSourceName = getName();
      DataChoice.addCurrentName(new TwoFacedObject("Point Data>Time", "Time"));
      DataChoice.addCurrentName(new TwoFacedObject("Point Data>Latitude", "Latitude"));
      DataChoice.addCurrentName(new TwoFacedObject("Point Data>Altitude", "Altitude"));

      for (int i = 0; i < comps.length; i++) {
        params.append("<li>");
        String paramName = ucar.visad.Util.cleanTypeName(comps[i].toString());
        DataAlias alias = DataAlias.findAlias(paramName);
        params.append(paramName);
        if (alias != null) {
          params.append(" --  " + alias.getLabel());
          DataChoice.addCurrentName(
              new TwoFacedObject(
                  dataSourceName + ">" + alias.getLabel() + " -- " + paramName, paramName));
        } else {
          DataChoice.addCurrentName(
              new TwoFacedObject(dataSourceName + ">" + paramName, paramName));
        }
        Data data = tuple.getComponent(i);
        if (data instanceof Real) {
          Unit unit = ((Real) data).getUnit();
          if (unit != null) {
            params.append("  [" + unit.toString() + "]");
          }
        }
      }
      fieldsDescription = params.toString();
    } catch (Exception exc) {
      logException("getting description", exc);
    }
  }
Exemplo n.º 4
0
 /** evaluate the domainFactor function */
 public static visad.Field factor(FieldImpl f, VRealType rt) {
   visad.Field val = null;
   try {
     val = f.domainFactor(rt.getRealType());
   } catch (VisADException exc) {
     if (FormulaVar.DEBUG) exc.printStackTrace();
   } catch (RemoteException exc) {
     if (FormulaVar.DEBUG) exc.printStackTrace();
   }
   return val;
 }
Exemplo n.º 5
0
  /** 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);
  }
Exemplo n.º 6
0
  /**
   * Load the volume data to the display
   *
   * @throws RemoteException problem loading remote data
   * @throws VisADException problem loading the data
   */
  private void loadVolumeData() throws VisADException, RemoteException {
    Trace.call1("VRC.loadVolumeData");
    FieldImpl grid = getGridDataInstance().getGrid();
    FieldImpl newGrid = grid;

    if (getSkipValue() > 0) {
      grid = GridUtil.subset(grid, getSkipValue() + 1);
      newGrid = grid;
    }

    if (!usePoints) {
      // make sure the projection is correct before we start
      // transforming the data
      setProjectionInView(true, true);

      CoordinateSystem cs = getNavigatedDisplay().getDisplayCoordinateSystem();
      if ((cs != null) && (getNavigatedDisplay() instanceof MapProjectionDisplay)) {
        try {
          if (GridUtil.isConstantSpatialDomain(grid)) {
            newGrid = makeLinearGrid(grid, cs);
          } else {
            Set timeSet = GridUtil.getTimeSet(grid);
            for (int i = 0; i < timeSet.getLength(); i++) {
              FieldImpl timeField = makeLinearGrid((FieldImpl) grid.getSample(i, false), cs);
              if (i == 0) {
                FunctionType ft =
                    new FunctionType(
                        ((SetType) timeSet.getType()).getDomain(), timeField.getType());
                newGrid = new FieldImpl(ft, timeSet);
              }
              newGrid.setSample(i, timeField, false);
            }
          }
        } catch (VisADException ve) {
          ve.printStackTrace();
          userErrorMessage(
              "Can't render volume for "
                  + paramName
                  + " in this projection. Try using the data projection");
          newGrid = grid;
        }
      }
    }
    Trace.call1("VRC.loadVolumeData.loadData");
    myDisplay.loadData(newGrid);
    Trace.call2("VRC.loadVolumeData.loadData");
    Trace.call2("loadVolumeData");
  }
Exemplo n.º 7
0
  /**
   * Get the data for the given DataChoice and selection criteria.
   *
   * @param dataChoice DataChoice for selection
   * @param category DataCategory for the DataChoice (not used)
   * @param subset subsetting criteria
   * @param requestProperties extra request properties
   * @return the Data object for the request
   * @throws RemoteException couldn't create a remote data object
   * @throws VisADException couldn't create the data
   */
  protected Data getDataInner(
      final DataChoice dataChoice,
      DataCategory category,
      final DataSelection subset,
      final Hashtable requestProperties)
      throws VisADException, RemoteException {

    try {
      List times = null;
      if (subset != null) {
        times = getTimesFromDataSelection(subset, dataChoice);
      }
      if (times == null) {
        times = dataChoice.getSelectedDateTimes();
      }

      List dtimes = subset.getTimeDriverTimes();

      if (dtimes != null && useDriverTime == false) {
        useDriverTime = true;
      }

      List<RadarAdapter> adapters = getAdapters();

      DateTime[] realDateTimes = new DateTime[adapters.size()];
      for (int i = 0; i < adapters.size(); i++) {
        realDateTimes[i] = ((RadarAdapter) adapters.get(i)).getBaseTime();
      }
      Arrays.sort(realDateTimes);
      // Flip it to get youngest date first
      boolean isRealTime = isRealTime();
      if (isRealTime) {
        realDateTimes =
            (DateTime[]) Misc.reverseArray(realDateTimes, new DateTime[realDateTimes.length]);
      }
      // if use time driver
      if (useDriverTime) {
        List tests = resetTimesList(realDateTimes, times);
        if (!compareTimeLists(times, tests)) {
          reloadData();
          adapters = getAdapters();

          realDateTimes = new DateTime[adapters.size()];
          for (int i = 0; i < adapters.size(); i++) {
            realDateTimes[i] = ((RadarAdapter) adapters.get(i)).getBaseTime();
          }
          Arrays.sort(realDateTimes);
          // Flip it to get youngest date first
          isRealTime = isRealTime();
          if (isRealTime) {
            realDateTimes =
                (DateTime[]) Misc.reverseArray(realDateTimes, new DateTime[realDateTimes.length]);
          }
          tests = resetTimesList(realDateTimes, times);
        }
        times = tests;
      }
      // if times are null, then that means all times
      DateTime[] dateTimes = null;

      if ((times == null) || (times.size() == 0)) {
        dateTimes = realDateTimes;
      } else {
        dateTimes = new DateTime[times.size()];
        for (int i = 0; i < times.size(); i++) {
          Object time = times.get(i);
          if (time instanceof TwoFacedObject) {
            int index = ((Integer) ((TwoFacedObject) time).getId()).intValue();
            dateTimes[i] = realDateTimes[index];
          } else if (time instanceof DateTime) {
            dateTimes[i] = (DateTime) time;
          }
        }
      }
      Arrays.sort(dateTimes);
      final Data[] datas = new Data[dateTimes.length];
      int timeIndex = 0;
      final MathType[] mt = {null};
      // create a new field of (Time -> (radar data)).
      // fill in the times array and data array with dates/data
      // only from those adapters which match the selected times.
      // if a data object is null, stick it in the list.
      // if all are null, then the MathType (mt) will never get set,
      // so return null.
      //            System.err.println ("Reading " + adapters.size() + " radar files");
      int cnt = 0;
      ThreadManager threadManager = new visad.util.ThreadManager("radar data reading");

      for (Iterator iter = adapters.iterator(); iter.hasNext(); ) {
        final RadarAdapter adapter = (RadarAdapter) iter.next();
        timeIndex = Arrays.binarySearch(dateTimes, adapter.getBaseTime());
        //              System.err.println ("timeIndex:" + timeIndex);
        if (timeIndex < 0) {
          continue;
        }
        cnt++;
        LogUtil.message("Time: " + (cnt) + "/" + dateTimes.length + " From:" + toString());
        final int theTimeIndex = timeIndex;
        threadManager.addRunnable(
            new visad.util.ThreadManager.MyRunnable() {
              public void run() throws Exception {
                Trace.call1("RDS.getData");
                Data d = adapter.getData(dataChoice, subset, requestProperties);
                Trace.call2("RDS.getData");
                datas[theTimeIndex] = d;
                if (d != null) {
                  mt[0] = d.getType();
                } else {
                }
              }
            });
      }

      try {
        // threadManager.debug = true;
        threadManager.runInParallel(getDataContext().getIdv().getMaxDataThreadCount());
      } catch (VisADException ve) {
        LogUtil.printMessage(ve.toString());
      }

      if (mt[0] == null) {
        return null;
      }

      FunctionType ft = new FunctionType(RealType.Time, mt[0]);
      SampledSet domainSet =
          (dateTimes.length == 1)
              ? (SampledSet) new SingletonSet(new RealTuple(dateTimes))
              : (SampledSet) DateTime.makeTimeSet(dateTimes);
      FieldImpl fi = new FieldImpl(ft, domainSet);
      fi.setSamples(datas, false);
      return fi;
    } catch (Exception exc) {
      logException("Creating obs", exc);
    }
    return null;
  }
Exemplo n.º 8
0
  /**
   * Create a front from the curve
   *
   * @param curve the curve coordinates
   * @param flip true to flip the pips
   * @return The front as a FieldImpl
   * @throws RemoteException On badness
   * @throws VisADException On badness
   */
  private FieldImpl curveToFront(float[][] curve, boolean flip)
      throws VisADException, RemoteException {

    if (flipTheFlip) {
      flip = !flip;
    }

    // compute various scaling factors
    int len = curve[0].length;
    if (len < 2) {
      return null;
    }
    float[] seg_length = new float[len - 1];
    float curve_length = curveLength(curve, seg_length);
    float delta = curve_length / (len - 1);
    // curve[findex] where
    // float findex = ibase + mul * repeat_shapes[shape][0][j]
    float mul = rprofile_length * zoom / rsegment_length;
    // curve_perp[][findex] * ratio * repeat_shapes[shape][1][j]
    float ratio = delta * mul;

    // compute unit perpendiculars to curve
    float[][] curve_perp = new float[2][len];
    for (int i = 0; i < len; i++) {
      int im = i - 1;
      int ip = i + 1;
      if (im < 0) {
        im = 0;
      }
      if (ip > len - 1) {
        ip = len - 1;
      }
      float yp = curve[0][ip] - curve[0][im];
      float xp = curve[1][ip] - curve[1][im];
      xp = -xp;
      float d = (float) Math.sqrt(xp * xp + yp * yp);
      if (flip) {
        d = -d;
      }
      xp = xp / d;
      yp = yp / d;
      curve_perp[0][i] = xp;
      curve_perp[1][i] = yp;
    }

    // build Vector of FlatFields for each shape of each segment
    Vector inner_field_vector = new Vector();
    for (int segment = 0; true; segment++) {

      // curve[findex] where
      // float findex = ibase + mul * repeat_shapes[shape][0][j]
      float segment_length = (segment == 0) ? fsegment_length : rsegment_length;
      int profile_length = (segment == 0) ? fprofile_length : rprofile_length;
      mul = profile_length * zoom / segment_length;
      // curve_perp[][findex] * ratio * repeat_shapes[shape][1][j]
      // float ratio = delta * mul;

      // figure out if clipping is needed for this segment
      // only happens for last segment
      boolean clip = false;
      float xclip = 0.0f;
      // int ibase = segment * profile_length;
      int ibase = (segment == 0) ? 0 : fprofile_length + (segment - 1) * rprofile_length;
      int iend = ibase + profile_length;
      if (ibase > len - 1) {
        break;
      }
      if (iend > len - 1) {
        clip = true;
        iend = len - 1;
        xclip = (iend - ibase) / mul;
      }

      // set up shapes for first or repeating segment
      int nshapes = nrshapes;
      float[][][] shapes = repeat_shapes;
      int[][][] tris = repeat_tris;
      float[] red = repeat_red;
      float[] green = repeat_green;
      float[] blue = repeat_blue;
      if (segment == 0) {
        nshapes = nfshapes;
        shapes = first_shapes;
        tris = first_tris;
        red = first_red;
        green = first_green;
        blue = first_blue;
      }

      // iterate over shapes for segment
      for (int shape = 0; shape < nshapes; shape++) {
        float[][] samples = shapes[shape];
        int[][] ts = tris[shape];
        /*
        // if needed, clip shape
        if (clip) {
        float[][][] outs = new float[1][][];
        int[][][] outt = new int[1][][];
        DelaunayCustom.clip(samples, ts, 1.0f, 0.0f, xclip, outs, outt);
        samples = outs[0];
        ts = outt[0];
        }
        */
        if ((samples == null) || (samples[0].length < 1)) {
          break;
        }

        float[][] ss = mapShape(samples, len, ibase, mul, ratio, curve, curve_perp);

        // **** get rid of previous calls to fill() ****
        ts = DelaunayCustom.fill(ss);

        // jeffmc: For now don't clip. This seems to fix the problem of too short a front
        boolean DOCLIP = false;
        if (clip && DOCLIP) {
          float[][] clip_samples = {
            {xclip, xclip, xclip - CLIP_DELTA},
            {CLIP_DELTA, -CLIP_DELTA, 0.0f}
          };
          float[][] clip_ss = mapShape(clip_samples, len, ibase, mul, ratio, curve, curve_perp);
          // now solve for:
          //   xc * clip_samples[0][0] + yc * clip_samples[1][0] = 1
          //   xc * clip_samples[0][1] + yc * clip_samples[1][1] = 1
          //   xc * clip_samples[0][2] + yc * clip_samples[1][2] < 1
          float det =
              (clip_samples[0][1] * clip_samples[1][0] - clip_samples[0][0] * clip_samples[1][1]);
          float xc = (clip_samples[1][0] - clip_samples[1][1]) / det;
          float yc = (clip_samples[0][1] - clip_samples[0][0]) / det;
          float v = 1.0f;
          if (xc * clip_samples[0][2] + yc * clip_samples[1][2] > v) {
            xc = -xc;
            yc = -yc;
            v = -v;
          }

          float[][][] outs = new float[1][][];
          int[][][] outt = new int[1][][];
          DelaunayCustom.clip(ss, ts, xc, yc, v, outs, outt);
          ss = outs[0];
          ts = outt[0];
        }

        if (ss == null) {
          break;
        }
        int n = ss[0].length;

        // create color values for field
        float[][] values = new float[3][n];
        float r = red[shape];
        float g = green[shape];
        float b = blue[shape];
        for (int i = 0; i < n; i++) {
          values[0][i] = r;
          values[1][i] = g;
          values[2][i] = b;
        }

        // construct set and field
        DelaunayCustom delaunay = new DelaunayCustom(ss, ts);
        Irregular2DSet set = new Irregular2DSet(curve_type, ss, null, null, null, delaunay);
        FlatField field = new FlatField(front_inner, set);
        field.setSamples(values, false);
        inner_field_vector.addElement(field);
        // some crazy bug - see Gridded3DSet.makeNormals()
      } // end for (int shape=0; shape<nshapes; shape++)
    } // end for (int segment=0; true; segment++)

    int nfields = inner_field_vector.size();
    Integer1DSet iset = new Integer1DSet(front_index, nfields);
    FieldImpl front = new FieldImpl(front_type, iset);
    FlatField[] fields = new FlatField[nfields];
    for (int i = 0; i < nfields; i++) {
      fields[i] = (FlatField) inner_field_vector.elementAt(i);
    }
    front.setSamples(fields, false);
    return front;
  }
Exemplo n.º 9
0
  /** Make the <code>DataChoices</code> for this <code>DataSource</code>. */
  public void doMakeDataChoices() {

    if (sources == null) {
      return;
    }
    String stationModelName = (String) getProperty(PROP_STATIONMODELNAME);
    Hashtable properties =
        Misc.newHashtable(DataChoice.PROP_ICON, "/auxdata/ui/icons/Placemark16.gif");
    if (stationModelName != null) {
      properties.put(PROP_STATIONMODELNAME, stationModelName);
    }
    if (!getDefaultLevels().isEmpty()) {
      properties.put(DataSelection.PROP_DEFAULT_LEVELS, getDefaultLevels());
    }
    DataChoice uberChoice = null;
    /*  Might want to do this someday
    uberChoice = new DirectDataChoice(this,
                                        sources, getName(),
                                        getDataName(),
                                        getPointCategories(),
                                        properties);
    */

    if (sources.size() > 1) {
      uberChoice =
          new CompositeDataChoice(
              this, sources, getName(), getDataName(), getPointCategories(), properties);
      addDataChoice(uberChoice);
    }

    for (int i = 0; i < sources.size(); i++) {
      String dataChoiceDesc = getDescription();
      String dataChoiceName = getDataName();
      if (uberChoice != null) {
        dataChoiceDesc = IOUtil.getFileTail(sources.get(i).toString());
        dataChoiceName = IOUtil.getFileTail(sources.get(i).toString());
      }

      DataChoice choice =
          new DirectDataChoice(
              this,
              new Integer(i),
              dataChoiceDesc,
              dataChoiceName,
              getPointCategories(),
              properties);

      /*
      We'd like to create sub choices for each parameter but we don't really
      know the parameters until we read the data and that can be expensive
                  DirectDataChoice subChoice = new DirectDataChoice(this,
                            (String) sources.get(i),
                            getDescription(), getDataName(),
                            getPointCategories(), properties);
                            choice.addDataChoice(subChoice);*/

      if (uberChoice != null) {
        ((CompositeDataChoice) uberChoice).addDataChoice(choice);
      } else {
        addDataChoice(choice);
      }
      // Only add the grid data choices for the first source
      if (i > 0) {
        continue;
      }
      try {
        FieldImpl sample = (makeGridFields ? getSample(choice) : null);
        if (sample != null) {
          for (int dataChoiceType = 0; dataChoiceType < 2; dataChoiceType++) {
            Hashtable seenFields = new Hashtable();
            if (ucar.unidata.data.grid.GridUtil.isTimeSequence(sample)) {
              sample = (FieldImpl) sample.getSample(0);
            }
            PointOb ob = (PointOb) sample.getSample(0);
            Tuple tuple = (Tuple) ob.getData();
            TupleType tupleType = (TupleType) tuple.getType();
            MathType[] types = tupleType.getComponents();
            CompositeDataChoice compositeDataChoice = null;
            for (int typeIdx = 0; typeIdx < types.length; typeIdx++) {
              if (!(types[typeIdx] instanceof RealType)) {
                continue;
              }
              RealType type = (RealType) types[typeIdx];
              if (!canCreateGrid(type)) {
                continue;
              }
              //                        List gridCategories =
              //                            DataCategory.parseCategories("OA Fields;GRID-2D-TIME;");
              List gridCategories = DataCategory.parseCategories("GRID-2D-TIME;", false);
              if (compositeDataChoice == null) {
                compositeDataChoice =
                    new CompositeDataChoice(
                        this,
                        "",
                        "Grid Fields from Objective Analysis",
                        "Gridded Fields " + ((dataChoiceType == 0) ? "" : "(with first guess)"),
                        Misc.newList(DataCategory.NONE_CATEGORY),
                        null);
                addDataChoice(compositeDataChoice);
              }
              String name = ucar.visad.Util.cleanTypeName(type.toString());
              if (seenFields.get(name) != null) {
                continue;
              }
              seenFields.put(name, name);
              List idList = Misc.newList(new Integer(i), type);
              if (dataChoiceType == 1) {
                idList.add(new Boolean(true));
              }
              DataChoice gridChoice =
                  new DirectDataChoice(this, idList, name, name, gridCategories, (Hashtable) null);
              compositeDataChoice.addDataChoice(gridChoice);
            }
          }
        }
      } catch (Exception exc) {
        throw new WrapperException("Making grid parameters", exc);
      }
      //            if(true) break;
    }
  }
Exemplo n.º 10
0
  /**
   * Actually get the data identified by the given DataChoce. The default is to call the
   * getDataInner that does not take the requestProperties. This allows other, non unidata.data
   * DataSource-s (that follow the old API) to work.
   *
   * @param dataChoice The data choice that identifies the requested data.
   * @param category The data category of the request.
   * @param dataSelection Identifies any subsetting of the data.
   * @param requestProperties Hashtable that holds any detailed request properties.
   * @return The visad.Data object
   * @throws RemoteException Java RMI problem
   * @throws VisADException VisAD problem
   */
  protected Data getDataInner(
      DataChoice dataChoice,
      DataCategory category,
      DataSelection dataSelection,
      Hashtable requestProperties)
      throws VisADException, RemoteException {

    loadId = JobManager.getManager().stopAndRestart(loadId, "WMSControl");
    Object myLoadId = loadId;

    if (requestProperties == null) {
      requestProperties = new Hashtable();
    }
    WmsSelection wmsInfo = (WmsSelection) dataChoice.getId();

    // Look if there was a layer that overrides the one in the data choice
    Object tfoLayer = requestProperties.get(PROP_LAYER);
    if ((tfoLayer != null) && (tfoLayer instanceof TwoFacedObject)) {
      String layer = ((TwoFacedObject) tfoLayer).getId().toString();
      for (int i = 0; i < wmsSelections.size(); i++) {
        WmsSelection tmpSelection = (WmsSelection) wmsSelections.get(i);
        if (Misc.equals(tmpSelection.getLayer(), layer)) {
          wmsInfo = tmpSelection;
          break;
        }
      }
    }

    GeoLocationInfo boundsToUse = (GeoLocationInfo) requestProperties.get(PROP_BOUNDS);

    Image image = null;
    FieldImpl xyData = null;
    byte[] imageContent = null;

    //        System.err.println(wmsInfo.getImageFile());
    if (wmsInfo.getImageFile() != null) {
      try {
        boundsToUse = new GeoLocationInfo(90, -180, -90, 180);
        InputStream is = IOUtil.getInputStream(wmsInfo.getImageFile());
        imageContent = IOUtil.readBytes(is, myLoadId);
        image = Toolkit.getDefaultToolkit().createImage(imageContent);
        //                javax.swing.JLabel l = new javax.swing.JLabel(new
        // javax.swing.ImageIcon(image));
        //                l.setBackground(Color.red);
        //                ucar.unidata.util.GuiUtils.showOkCancelDialog(null,null, l,null);
        xyData = ucar.visad.Util.makeField(image, 0, false, true);
      } catch (Exception iexc) {
        logException("There was an error accessing the image:\n" + wmsInfo.getImageFile(), iexc);
        return null;
      }
    } else {
      String writeFile = (String) requestProperties.get(PROP_WRITEFILE);

      int imageWidth = Misc.getProperty(requestProperties, PROP_IMAGEWIDTH, 800);
      int imageHeight = Misc.getProperty(requestProperties, PROP_IMAGEHEIGHT, -1);
      double resolution = Misc.getProperty(requestProperties, PROP_RESOLUTION, (float) 1.0);

      if (wmsInfo.getLegendIcon() != null) {
        requestProperties.put(PROP_ICONPATH, wmsInfo.getLegendIcon());
      }
      if (!wmsInfo.getAllowSubsets() || (boundsToUse == null)) {
        boundsToUse = wmsInfo.getBounds();
      } else {
        boundsToUse.rectify(wmsInfo.getBounds(), 0.0);
        boundsToUse.snapToGrid();
        boundsToUse.rectify(wmsInfo.getBounds(), 0.0);
      }

      double widthDegrees = boundsToUse.getMaxLon() - boundsToUse.getMinLon();
      double heightDegrees = boundsToUse.getMaxLat() - boundsToUse.getMinLat();

      if ((widthDegrees == 0) || (heightDegrees == 0)) {
        return null;
      }

      if (wmsInfo.getFixedWidth() > -1) {
        imageWidth = wmsInfo.getFixedWidth();
      }
      if (wmsInfo.getFixedHeight() > -1) {
        imageHeight = wmsInfo.getFixedHeight();
      } else {
        if (imageHeight < 0) {
          imageHeight =
              Math.abs((int) (imageWidth * boundsToUse.getDegreesY() / boundsToUse.getDegreesX()));
        }
      }
      imageWidth = Math.min(Math.max(imageWidth, 50), 2056);
      imageHeight = Math.min(Math.max(imageHeight, 50), 2056);

      if (maintainRatio) {
        imageHeight = (int) (imageWidth * (heightDegrees / widthDegrees));
      }

      double diff = Math.abs(boundsToUse.getMinLon() - boundsToUse.getMaxLon());
      String url =
          wmsInfo.assembleRequest(
              boundsToUse, (int) (imageWidth / resolution), (int) (imageHeight / resolution));

      String cacheGroup = "WMS";
      synchronized (cachedUrls) {
        if (writeFile == null) {
          for (int i = 0; i < cachedUrls.size(); i++) {
            if (url.equals(cachedUrls.get(i))) {
              image = (Image) cachedData.get(i);
              break;
            }
          }
        }
      }

      try {
        if (image == null) {
          if (Misc.equals(url, lastUrl) && (lastImageContent != null)) {
            imageContent = lastImageContent;
          } else {
          }

          if (imageContent == null) {
            long t1 = System.currentTimeMillis();
            //                    System.err.println("getting image:" + url);
            LogUtil.message("Reading WMS image: " + wmsInfo);
            // System.err.println ("url:" + url);

            InputStream is = IOUtil.getInputStream(url);
            long t2 = System.currentTimeMillis();
            imageContent = IOUtil.readBytes(is, myLoadId);
            long t3 = System.currentTimeMillis();
            LogUtil.message("");
            //                    System.err.println("Done");
          }
          // If it is null then there is another thread that is doing
          // a subsequent read
          lastImageContent = null;
          if (imageContent == null) {
            return null;
          }
          Trace.call2("Getting image");
          Trace.call1("Making image");
          image = Toolkit.getDefaultToolkit().createImage(imageContent);
          // Wait on the image
          image = ucar.unidata.ui.ImageUtils.waitOnImage(image);
          if (image == null) {
            throw new IllegalStateException();
          }

          Trace.call2("Making image");
          lastImageContent = imageContent;
          lastUrl = url;
          updateDetailsText();
          if (!JobManager.getManager().canContinue(myLoadId)) {
            Trace.call2("WMSControl.loadImage");
            return null;
          }
          synchronized (cachedUrls) {
            if (cachedUrls.size() > 5) {
              cachedUrls.remove(cachedUrls.size() - 1);
              cachedData.remove(cachedData.size() - 1);
            }
            // For now don't cache
            //      cachedUrls.add(0, url);
            //                    cachedData.add(0, image);
          }
        }
        ImageHelper ih = new ImageHelper();
        int width = image.getWidth(ih);
        if (ih.badImage) {
          throw new IllegalStateException();
        }
        long tt1 = System.currentTimeMillis();

        xyData = ucar.visad.Util.makeField(image, 0, false, true);
        long tt2 = System.currentTimeMillis();
        //      System.err.println("time to make field:" + (tt2-tt1));
      } catch (Exception iexc) {
        if (imageContent != null) {
          String msg = new String(imageContent);
          //  System.err.println ("msg:" + msg);
          /* Check to see if this is of the form:

          <?xml version='1.0' encoding="UTF-8" standalone="no" ?>
          <!DOCTYPE ServiceExceptionReport SYSTEM "http://www.digitalearth.gov/wmt/xml/exception_1_1_0.dtd ">
          <ServiceExceptionReport version="1.1.0">
           <ServiceException>
             Service denied due to system overload. Please try again later.
           </ServiceException>
          </ServiceExceptionReport>

          */
          if (msg.indexOf("<ServiceExceptionReport") >= 0) {
            try {
              StringBuffer errors = new StringBuffer();
              errors.append("\n");
              Element root = XmlUtil.getRoot(msg);
              List children = XmlUtil.findChildren(root, "ServiceException");
              for (int i = 0; i < children.size(); i++) {

                Element node = (Element) children.get(i);
                String code = XmlUtil.getAttribute(node, "code", (String) null);
                String body = XmlUtil.getChildText(node);
                if (code != null) {
                  errors.append(code + "\n");
                }
                errors.append(body.trim() + "\n");
              }
              LogUtil.userErrorMessage(
                  "Error accessing image with the url:\n" + url + "\nError:\n" + errors);
            } catch (Exception exc) {
              LogUtil.userErrorMessage(
                  "Error accessing image with the url:\n"
                      + url
                      + "\nError:\n"
                      + StringUtil.stripTags(msg));
            }
            return null;
          }

          msg = StringUtil.replace(msg, "\n", " ").toLowerCase();
          if (StringUtil.stringMatch(msg, "service\\s*exception")) {
            if (StringUtil.stringMatch(msg, "cannot\\s*be\\s*less\\s*than")) {
              return null;
            }
          }
          if (msg.indexOf("error") >= 0) {
            LogUtil.userErrorMessage(
                "There was an error accessing the image with the url:\n"
                    + url
                    + "\nError:\n"
                    + new String(imageContent));
            return null;
          }
        }
        logException("There was an error accessing the image with the url:\n" + url, iexc);
        return null;
      }

      if (writeFile != null) {
        try {
          ImageXmlDataSource.writeToFile(writeFile, boundsToUse, imageContent, wmsInfo.getFormat());
        } catch (Exception exc) {
          throw new IllegalArgumentException(
              "Error writing image xml file:" + writeFile + " " + exc);
        }
      }
    }

    Linear2DSet domain = (Linear2DSet) xyData.getDomainSet();
    Linear2DSet imageDomain =
        new Linear2DSet(
            RealTupleType.SpatialEarth2DTuple,
            boundsToUse.getMinLon(),
            boundsToUse.getMaxLon(),
            domain.getX().getLength(),
            boundsToUse.getMaxLat(),
            boundsToUse.getMinLat(),
            domain.getY().getLength());

    // System.err.println("image domain:" + imageDomain);

    /*
    new Linear2DSet(RealTupleType.SpatialEarth2DTuple,
                        boundsToUse.getMinLon(), boundsToUse.getMaxLon(),
                        domain.getX().getLength(),
                        boundsToUse.getMinLat() +diff, boundsToUse.getMinLat(),
                        domain.getY().getLength());*/

    FieldImpl field = GridUtil.setSpatialDomain(xyData, imageDomain, true);

    return field;
  }
Exemplo n.º 11
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);
  }
Exemplo n.º 12
0
  public static boolean isByRefUsable(DataDisplayLink link, ShadowType shadow)
      throws VisADException, RemoteException {
    ShadowFunctionOrSetType shadowType = (ShadowFunctionOrSetType) shadow.getAdaptedShadowType();
    CoordinateSystem dataCoordinateSystem = null;
    FlatField fltField = null;
    int num_images = 1;
    FieldImpl field = (FieldImpl) link.getData();
    if (!(field instanceof FlatField)) {
      num_images = field.getDomainSet().getLength();
      if (1
          == num_images) { // If there is a single image in the animation dont do anything, simply
                           // return true
        return true;
      }
      shadowType = (ShadowFunctionOrSetType) shadowType.getRange();
      fltField = (FlatField) field.getSample(0);
      dataCoordinateSystem = fltField.getDomainCoordinateSystem();
    } else {
      dataCoordinateSystem = ((FlatField) field).getDomainCoordinateSystem();
      return true;
    }

    // cs might be cached
    if (dataCoordinateSystem instanceof CachingCoordinateSystem) {
      dataCoordinateSystem =
          ((CachingCoordinateSystem) dataCoordinateSystem).getCachedCoordinateSystem();
    }

    ShadowRealType[] DomainComponents = shadowType.getDomainComponents();
    ShadowRealTupleType Domain = shadowType.getDomain();
    ShadowRealTupleType domain_reference = Domain.getReference();
    ShadowRealType[] DC = DomainComponents;

    if (domain_reference != null && domain_reference.getMappedDisplayScalar()) {
      DC = shadowType.getDomainReferenceComponents();
    }

    DisplayTupleType spatial_tuple = null;
    for (int i = 0; i < DC.length; i++) {
      java.util.Enumeration maps = DC[i].getSelectedMapVector().elements();
      ScalarMap map = (ScalarMap) maps.nextElement();
      DisplayRealType real = map.getDisplayScalar();
      spatial_tuple = real.getTuple();
    }

    CoordinateSystem coord = spatial_tuple.getCoordinateSystem();

    if (coord instanceof CachingCoordinateSystem) {
      coord = ((CachingCoordinateSystem) coord).getCachedCoordinateSystem();
    }

    boolean useLinearTexture = false;
    if (coord instanceof InverseLinearScaledCS) {
      InverseLinearScaledCS invCS = (InverseLinearScaledCS) coord;
      useLinearTexture = (invCS.getInvertedCoordinateSystem()).equals(dataCoordinateSystem);
    }

    /**
     * if useLinearTexture is true at this point, it's true for the first image of a sequence with
     * numimages > 1. We'll have to assume that byRef will apply until below is resolved.
     */

    /**
     * more consideration/work needed here. CoordinateSystems might be equal even if they aren't the
     * same transform (i,j) -> (lon,lat) if (!useLinearTexture) { //If DisplayCoordinateSystem !=
     * DataCoordinateSystem if (num_images > 1) { //Its an animation int lengths[] =
     * ((visad.GriddedSet) fltField.getDomainSet()).getLengths(); int data_width = lengths[0]; int
     * data_height = lengths[1]; for (int i = 1; i < num_images; i++) {//Playing safe: go down the
     * full sequence to find if the full set is Geostaionary or NOT FlatField ff = (FlatField)
     * field.getSample(i); //Quicker Approach would be to just compare only the first two images in
     * the sequence. But that may not be safe. CoordinateSystem dcs =
     * ff.getDomainCoordinateSystem(); // dcs might be cached if (dcs instanceof
     * CachingCoordinateSystem) { dcs = ((CachingCoordinateSystem) dcs).getCachedCoordinateSystem();
     * } int[] lens = ((visad.GriddedSet) ff.getDomainSet()).getLengths(); if (lens[0] != data_width
     * || lens[1] != data_height || ( (dcs != null) && (dataCoordinateSystem != null) &&
     * !dcs.equals(dataCoordinateSystem))) { useLinearTexture = false; break; } } } }
     */
    return useLinearTexture;
  }