/**
  * Reads a coordinate value with the specified dimensionality. Makes the X and Y ordinates precise
  * according to the precision model in use.
  */
 private void readCoordinate() throws IOException {
   for (int i = 0; i < inputDimension; i++) {
     if (i <= 1) {
       ordValues[i] = precisionModel.makePrecise(dis.readDouble());
     } else {
       ordValues[i] = dis.readDouble();
     }
   }
 }
Beispiel #2
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  /**
   * Compares this {@link PrecisionModel} object with the specified object for order. A
   * PrecisionModel is greater than another if it provides greater precision. The comparison is
   * based on the value returned by the {@link #getMaximumSignificantDigits} method. This comparison
   * is not strictly accurate when comparing floating precision models to fixed models; however, it
   * is correct when both models are either floating or fixed.
   *
   * @param o the <code>PrecisionModel</code> with which this <code>PrecisionModel</code> is being
   *     compared
   * @return a negative integer, zero, or a positive integer as this <code>PrecisionModel</code> is
   *     less than, equal to, or greater than the specified <code>PrecisionModel</code>
   */
  public int compareTo(Object o) {
    PrecisionModel other = (PrecisionModel) o;

    int sigDigits = getMaximumSignificantDigits();
    int otherSigDigits = other.getMaximumSignificantDigits();
    return (new Integer(sigDigits)).compareTo(new Integer(otherSigDigits));
    //    if (sigDigits > otherSigDigits)
    //      return 1;
    //    else if
    //    if (modelType == FLOATING && other.modelType == FLOATING) return 0;
    //    if (modelType == FLOATING && other.modelType != FLOATING) return 1;
    //    if (modelType != FLOATING && other.modelType == FLOATING) return -1;
    //    if (modelType == FIXED && other.modelType == FIXED) {
    //      if (scale > other.scale)
    //        return 1;
    //      else if (scale < other.scale)
    //        return -1;
    //      else
    //        return 0;
    //    }
    //    Assert.shouldNeverReachHere("Unknown Precision Model type encountered");
    //    return 0;
  }
  public Coordinate[] edit(Coordinate[] coordinates, Geometry geom) {
    if (coordinates.length == 0) return null;

    Coordinate[] reducedCoords = new Coordinate[coordinates.length];
    // copy coordinates and reduce
    for (int i = 0; i < coordinates.length; i++) {
      Coordinate coord = new Coordinate(coordinates[i]);
      targetPM.makePrecise(coord);
      reducedCoords[i] = coord;
    }
    // remove repeated points, to simplify returned geometry as much as possible
    CoordinateList noRepeatedCoordList = new CoordinateList(reducedCoords, false);
    Coordinate[] noRepeatedCoords = noRepeatedCoordList.toCoordinateArray();

    /**
     * Check to see if the removal of repeated points collapsed the coordinate List to an invalid
     * length for the type of the parent geometry. It is not necessary to check for Point collapses,
     * since the coordinate list can never collapse to less than one point. If the length is
     * invalid, return the full-length coordinate array first computed, or null if collapses are
     * being removed. (This may create an invalid geometry - the client must handle this.)
     */
    int minLength = 0;
    if (geom instanceof LineString) minLength = 2;
    if (geom instanceof LinearRing) minLength = 4;

    Coordinate[] collapsedCoords = reducedCoords;
    if (removeCollapsed) collapsedCoords = null;

    // return null or orginal length coordinate array
    if (noRepeatedCoords.length < minLength) {
      return collapsedCoords;
    }

    // ok to return shorter coordinate array
    return noRepeatedCoords;
  }
Beispiel #4
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 /**
  * Determines which of two {@link PrecisionModel}s is the most precise (allows the greatest number
  * of significant digits).
  *
  * @param pm1 a PrecisionModel
  * @param pm2 a PrecisionModel
  * @return the PrecisionModel which is most precise
  */
 public static PrecisionModel mostPrecise(PrecisionModel pm1, PrecisionModel pm2) {
   if (pm1.compareTo(pm2) >= 0) return pm1;
   return pm2;
 }
Beispiel #5
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 public static String toXML(PrecisionModel precisionModel) {
   if (precisionModel.isFloating()) {
     return "<precisionModel type=\"FLOATING\"/>";
   }
   return "<precisionModel type=\"FIXED\" scale=\"" + precisionModel.getScale() + "\"/>";
 }