Exemplo n.º 1
0
 public final void setXXX() {
   final double dep = w4.getDepth();
   final double dLat = w4.getLat();
   final double dLong = w4.getLong();
   w1.setDepth(dep);
   w1.setLat(dLat);
   w1.setLong(dLong);
   assertTrue(w1.equals(w4));
 }
Exemplo n.º 2
0
  /**
   * note that addToMe changes this object
   *
   * @param delta the offset to add to this point
   */
  public void addToMe(final WorldVector delta) {
    // check we have our model
    if (_model == null) {
      _model = new MWC.Algorithms.EarthModels.FlatEarth();
    }

    // do the calculation with our model
    final WorldLocation res = _model.add(this, delta);

    // update ourselves to the result
    setLat(res.getLat());
    setLong(res.getLong());
    setDepth(res.getDepth());
  }
Exemplo n.º 3
0
 public final void testGetDepth() {
   assertEquals(w1.getDepth(), 12.5, 0d);
 }
Exemplo n.º 4
0
  /** put our keywords into the XML description */
  protected static String swapKeywords(
      final DetectionEvent detection,
      final Status currentLocation,
      final String weapon,
      final TargetType theTarget) {
    // amend string template to include available parameters
    final Float brg_degs = detection.getBearing();
    final WorldDistance rng = detection.getRange();

    // take a copy of the string
    String working = new String(weapon);

    // swap the bearing
    if (brg_degs != null) {
      final String brg_val = "" + brg_degs.floatValue();
      working = replaceAll(working, "$BRG$", brg_val);
    }

    // swap the range
    if (rng != null) {
      final String rng_val = "" + rng.getValueIn(WorldDistance.YARDS);
      working = replaceAll(working, "$RNG$", rng_val);
    }

    // insert the location of the target
    if (brg_degs != null) {
      final float brg_val = brg_degs.floatValue();

      // do we know range?
      if (rng != null) {
        // yes, compute target location
        final WorldVector newVector =
            new WorldVector(
                MWC.Algorithms.Conversions.Degs2Rads(brg_val),
                rng.getValueIn(WorldDistance.DEGS),
                0);
        final WorldLocation newLoc = currentLocation.getLocation().add(newVector);

        // produce strings from this location
        final String theDepth = "" + newLoc.getDepth();
        final String theLat = "" + newLoc.getLat();
        final String theLong = "" + newLoc.getLong();

        // put these strings into the new behaviour
        working = replaceAll(working, "$TGT_DEPTH$", theDepth);
        working = replaceAll(working, "$TGT_LAT$", theLat);
        working = replaceAll(working, "$TGT_LONG$", theLong);

      } else {
        // no, send the weapon down a bearing for XXXX yds
        // compute target location
        final double TGT_RANGE = 5000;
        final WorldVector newVector =
            new WorldVector(
                MWC.Algorithms.Conversions.Degs2Rads(brg_val),
                MWC.Algorithms.Conversions.Yds2Degs(TGT_RANGE),
                0);
        final WorldLocation newLoc = currentLocation.getLocation().add(newVector);

        // produce strings from this location
        final String theDepth = "" + newLoc.getDepth();
        final String theLat = "" + newLoc.getLat();
        final String theLong = "" + newLoc.getLong();

        // put these strings into the new behaviour
        working = replaceAll(working, "$TGT_DEPTH$", theDepth);
        working = replaceAll(working, "$TGT_LAT$", theLat);
        working = replaceAll(working, "$TGT_LONG$", theLong);
      }
    }

    if (theTarget != null) {
      // output the XML header stuff
      // output the plot
      final java.io.StringWriter newString = new StringWriter();
      //      final com.sun.xml.tree.XmlDocument doc = new com.sun.xml.tree.XmlDocument();
      DocumentBuilderFactory factory = DocumentBuilderFactory.newInstance();
      Document doc = null;
      try {
        DocumentBuilder builder = factory.newDocumentBuilder();
        doc = builder.newDocument();
        final org.w3c.dom.Element type =
            ASSET.Util.XML.Decisions.Util.TargetTypeHandler.getElement(theTarget, doc);
        doc.appendChild(type);
        doc.setNodeValue(type.getTagName());
        //    doc.changeNodeOwner(type);
        //   doc.setSystemId("ASSET XML Version 1.0");

        // Use a Transformer for output
        TransformerFactory tFactory = TransformerFactory.newInstance();
        Transformer transformer = tFactory.newTransformer();

        DOMSource source = new DOMSource(doc);
        StreamResult result = new StreamResult(newString);
        transformer.transform(source, result);
      } catch (ParserConfigurationException e) {
        e.printStackTrace(); // To change body of catch statement use Options | File Templates.
      } catch (DOMException e) {
        e.printStackTrace(); // To change body of catch statement use Options | File Templates.
      } catch (TransformerFactoryConfigurationError transformerFactoryConfigurationError) {
        transformerFactoryConfigurationError
            .printStackTrace(); // To change body of catch statement use Options | File Templates.
      } catch (TransformerException e) {
        e.printStackTrace(); // To change body of catch statement use Options | File Templates.
      }

      //      // ok, we should be done now
      //      try
      //      {
      //        doc.write(newString);
      //      }
      //      catch(java.io.IOException e)
      //      {
      //        e.printStackTrace();
      //      }

      // try to extract the <target type portion
      if (newString != null) {
        final String val = newString.toString();
        final String startIdentifier = "<TargetType";
        final String endIdentifier = "</TargetType";
        final int start = val.indexOf(startIdentifier);
        final int end = val.lastIndexOf(endIdentifier);
        final String detail = val.substring(start, end + endIdentifier.length() + 1);

        // lastly, replace the string
        working = replaceAll(working, "<TargetType/>", detail);
      }
    }

    return working;
  }