Exemplo n.º 1
0
  /**
   * Given a tiled request, builds a key that can be used to access the cache looking for a specific
   * meta-tile, and also as a synchronization tool to avoid multiple requests to trigger parallel
   * computation of the same meta-tile
   *
   * @param request
   * @return
   */
  public MetaTileKey getMetaTileKey(GetMapRequest request) {
    String mapDefinition = buildMapDefinition(request.getHttpServletRequest());
    Envelope bbox = request.getBbox();
    Point2D origin = request.getTilesOrigin();
    MapKey mapKey =
        new MapKey(mapDefinition, normalize(bbox.getWidth() / request.getWidth()), origin);
    Point tileCoords = getTileCoordinates(bbox, origin);
    Point metaTileCoords = getMetaTileCoordinates(tileCoords);
    Envelope metaTileEnvelope = getMetaTileEnvelope(request, tileCoords, metaTileCoords);
    MetaTileKey key = new MetaTileKey(mapKey, metaTileCoords, metaTileEnvelope);

    // since this will be used for thread synchronization, we have to make
    // sure two thread asking for the same meta tile will get the same key
    // object
    return (MetaTileKey) metaTileKeys.unique(key);
  }
Exemplo n.º 2
0
public class QuickTileCache implements TransactionListener {
  /**
   * Set of parameters that we can ignore, since they do not define a map, are either unrelated, or
   * define the tiling instead
   */
  private static final Set ignoredParameters;

  static {
    ignoredParameters = new HashSet();
    ignoredParameters.add("REQUEST");
    ignoredParameters.add("TILED");
    ignoredParameters.add("BBOX");
    ignoredParameters.add("WIDTH");
    ignoredParameters.add("HEIGHT");
    ignoredParameters.add("SERVICE");
    ignoredParameters.add("VERSION");
    ignoredParameters.add("EXCEPTIONS");
  }

  /** Canonicalizer used to return the same object when two threads ask for the same meta-tile */
  private CanonicalSet<MetaTileKey> metaTileKeys = CanonicalSet.newInstance(MetaTileKey.class);

  private WeakHashMap tileCache = new WeakHashMap();

  public QuickTileCache(GeoServer geoServer) {
    geoServer.addListener(
        new ConfigurationListenerAdapter() {
          public void handleGlobalChange(
              GeoServerInfo global,
              List<String> propertyNames,
              List<Object> oldValues,
              List<Object> newValues) {
            tileCache.clear();
          }

          public void handleServiceChange(
              ServiceInfo service,
              List<String> propertyNames,
              List<Object> oldValues,
              List<Object> newValues) {
            tileCache.clear();
          }

          public void reloaded() {
            tileCache.clear();
          }
        });
  }

  /** For testing only */
  QuickTileCache() {}

  /**
   * Given a tiled request, builds a key that can be used to access the cache looking for a specific
   * meta-tile, and also as a synchronization tool to avoid multiple requests to trigger parallel
   * computation of the same meta-tile
   *
   * @param request
   * @return
   */
  public MetaTileKey getMetaTileKey(GetMapRequest request) {
    String mapDefinition = buildMapDefinition(request.getHttpServletRequest());
    Envelope bbox = request.getBbox();
    Point2D origin = request.getTilesOrigin();
    MapKey mapKey =
        new MapKey(mapDefinition, normalize(bbox.getWidth() / request.getWidth()), origin);
    Point tileCoords = getTileCoordinates(bbox, origin);
    Point metaTileCoords = getMetaTileCoordinates(tileCoords);
    Envelope metaTileEnvelope = getMetaTileEnvelope(request, tileCoords, metaTileCoords);
    MetaTileKey key = new MetaTileKey(mapKey, metaTileCoords, metaTileEnvelope);

    // since this will be used for thread synchronization, we have to make
    // sure two thread asking for the same meta tile will get the same key
    // object
    return (MetaTileKey) metaTileKeys.unique(key);
  }

  private Envelope getMetaTileEnvelope(
      GetMapRequest request, Point tileCoords, Point metaTileCoords) {
    Envelope bbox = request.getBbox();
    double minx = bbox.getMinX() + (metaTileCoords.x - tileCoords.x) * bbox.getWidth();
    double miny = bbox.getMinY() + (metaTileCoords.y - tileCoords.y) * bbox.getHeight();
    double maxx = minx + bbox.getWidth() * 3;
    double maxy = miny + bbox.getHeight() * 3;
    return new Envelope(minx, maxx, miny, maxy);
  }

  /**
   * Given a tile, returns the coordinates of the meta-tile that contains it (where the meta-tile
   * coordinate is the coordinate of its lower left subtile)
   *
   * @param tileCoords
   * @return
   */
  Point getMetaTileCoordinates(Point tileCoords) {
    int x = tileCoords.x;
    int y = tileCoords.y;
    int rx = x % 3;
    int ry = y % 3;
    int mtx = (rx == 0) ? x : ((x >= 0) ? (x - rx) : (x - 3 - rx));
    int mty = (ry == 0) ? y : ((y >= 0) ? (y - ry) : (y - 3 - ry));

    return new Point(mtx, mty);
  }

  /**
   * Given an envelope and origin, find the tile coordinate (row,col)
   *
   * @param env
   * @param origin
   * @return
   */
  Point getTileCoordinates(Envelope env, Point2D origin) {
    // this was using the low left corner and Math.round, but turned
    // out to be fragile when fairly zoomed in. Using the tile center
    // and then flooring the division seems to work much more reliably.
    double centerx = env.getMinX() + env.getWidth() / 2;
    double centery = env.getMinY() + env.getHeight() / 2;
    int x = (int) Math.floor((centerx - origin.getX()) / env.getWidth());
    int y = (int) Math.floor((centery - origin.getY()) / env.getWidth());

    return new Point(x, y);
  }

  /**
   * This is tricky. We need to have doubles that can be compared by equality because resolution and
   * origin are doubles, and are part of a hashmap key, so we have to normalize them somehow, in
   * order to make the little differences disappear. Here we take the mantissa, which is made of 52
   * bits, and throw away the 20 more significant ones, which means we're dealing with 12
   * significant decimal digits (2^40 -> more or less one billion million). See also <a
   * href="http://en.wikipedia.org/wiki/IEEE_754">IEEE 754</a> on Wikipedia.
   *
   * @param d
   * @return
   */
  static double normalize(double d) {
    if (Double.isInfinite(d) || Double.isNaN(d)) {
      return d;
    }

    return Math.round(d * 10e6) / 10e6;
  }

  /**
   * Turns the request back into a sort of GET request (not url-encoded) for fast comparison
   *
   * @param request
   * @return
   */
  private String buildMapDefinition(HttpServletRequest request) {
    StringBuffer sb = new StringBuffer();
    Enumeration en = request.getParameterNames();

    while (en.hasMoreElements()) {
      String paramName = (String) en.nextElement();

      if (ignoredParameters.contains(paramName.toUpperCase())) {
        continue;
      }

      // we don't have multi-valued parameters afaik, otherwise we would
      // have to use getParameterValues and deal with the returned array
      sb.append(paramName).append('=').append(request.getParameter(paramName));

      if (en.hasMoreElements()) {
        sb.append('&');
      }
    }

    return sb.toString();
  }

  /** Key defining a tiling layer in a map */
  static class MapKey {
    String mapDefinition;

    double resolution;

    Point2D origin;

    public MapKey(String mapDefinition, double resolution, Point2D origin) {
      super();
      this.mapDefinition = mapDefinition;
      this.resolution = resolution;
      this.origin = origin;
    }

    public int hashCode() {
      return new HashCodeBuilder()
          .append(mapDefinition)
          .append(resolution)
          .append(resolution)
          .append(origin)
          .toHashCode();
    }

    public boolean equals(Object obj) {
      if (!(obj instanceof MapKey)) {
        return false;
      }

      MapKey other = (MapKey) obj;

      return new EqualsBuilder()
          .append(mapDefinition, other.mapDefinition)
          .append(resolution, other.resolution)
          .append(origin, other.origin)
          .isEquals();
    }

    public String toString() {
      return mapDefinition
          + "\nw:"
          + "\nresolution:"
          + resolution
          + "\norig:"
          + origin.getX()
          + ","
          + origin.getY();
    }
  }

  /** Key that identifies a certain meta-tile in a tiled map layer */
  static class MetaTileKey {
    MapKey mapKey;

    Point metaTileCoords;

    Envelope metaTileEnvelope;

    public MetaTileKey(MapKey mapKey, Point metaTileCoords, Envelope metaTileEnvelope) {
      super();
      this.mapKey = mapKey;
      this.metaTileCoords = metaTileCoords;
      this.metaTileEnvelope = metaTileEnvelope;
    }

    public Envelope getMetaTileEnvelope() {
      //            This old code proved to be too much unstable, numerically wise, to be used
      //            when very much zoomed in, so we moved to a local meta tile envelope computation
      //            based on the requested tile bounds instead
      //            double minx = mapKey.origin.getX() + (mapKey.resolution * 256 *
      // metaTileCoords.x);
      //            double miny = mapKey.origin.getY() + (mapKey.resolution * 256 *
      // metaTileCoords.y);
      //
      //            return new Envelope(minx, minx + (mapKey.resolution * 256 * 3), miny, miny
      //                    + (mapKey.resolution * 256 * 3));
      return metaTileEnvelope;
    }

    public int hashCode() {
      return new HashCodeBuilder().append(mapKey).append(metaTileCoords).toHashCode();
    }

    public boolean equals(Object obj) {
      if (!(obj instanceof MetaTileKey)) {
        return false;
      }

      MetaTileKey other = (MetaTileKey) obj;

      return new EqualsBuilder()
          .append(mapKey, other.mapKey)
          .append(metaTileCoords, other.metaTileCoords)
          .isEquals();
    }

    public int getMetaFactor() {
      return 3;
    }

    public int getTileSize() {
      return 256;
    }

    public String toString() {
      return mapKey + "\nmtc:" + metaTileCoords.x + "," + metaTileCoords.y;
    }
  }

  /**
   * Gathers a tile from the cache, if available
   *
   * @param key
   * @param request
   * @return
   */
  public synchronized RenderedImage getTile(MetaTileKey key, GetMapRequest request) {
    CacheElement ce = (CacheElement) tileCache.get(key);

    if (ce == null) {
      return null;
    }

    return getTile(key, request, ce.tiles);
  }

  /**
   * @param key
   * @param request
   * @param tiles
   * @return
   */
  public RenderedImage getTile(MetaTileKey key, GetMapRequest request, RenderedImage[] tiles) {
    Point tileCoord = getTileCoordinates(request.getBbox(), key.mapKey.origin);
    Point metaCoord = key.metaTileCoords;

    return tiles[tileCoord.x - metaCoord.x + ((tileCoord.y - metaCoord.y) * key.getMetaFactor())];
  }

  /**
   * Puts the specified tile array in the cache, and returns the tile the request was looking for
   *
   * @param key
   * @param request
   * @param tiles
   * @return
   */
  public synchronized void storeTiles(MetaTileKey key, RenderedImage[] tiles) {
    tileCache.put(key, new CacheElement(tiles));
  }

  class CacheElement {
    RenderedImage[] tiles;

    public CacheElement(RenderedImage[] tiles) {
      this.tiles = tiles;
    }
  }

  public void dataStoreChange(TransactionEvent event) throws WFSException {
    // if anything changes we just wipe out the cache. the mapkey
    // contains a string with part of the map request where the layer
    // name is included, but we would have to parse it and consider
    // also that the namespace may be missing in the getmap request
    tileCache.clear();
  }
}