示例#1
0
 /** Free the memory of the image cache */
 public void close() {
   ecwFile.close(true);
 }
示例#2
0
  /**
   * read part from ECW-file which falls within env and return this part as BufferedImage with
   * dimenions width and height
   *
   * @param env bounding box in world coordinates of requested part
   * @param width width of the returned image
   * @param height height of the returned image
   */
  public BufferedImage getBufferedImage(Envelope env, int width, int height) throws JNCSException {

    int bandlist[];
    int line, pRGBArray[] = null;

    // Setup the view parameters for the ecw file.
    bandlist = new int[ecwFile.numBands];
    for (int i = 0; i < ecwFile.numBands; i++) {
      bandlist[i] = i;
    }

    // Check if the envelope is within the area of the ecw-image
    double dWorldTLX = env.getMin().getX();
    double dWorldTLY = env.getMax().getY();

    LOG.logDebug("tlx: " + dWorldTLX + " tly: " + dWorldTLY);

    if (dWorldTLX < ecwFile.originX) dWorldTLX = ecwFile.originX;
    if (dWorldTLY > ecwFile.originY) dWorldTLY = ecwFile.originY;
    double dWorldBRX = env.getMax().getX();
    double dWorldBRY = env.getMin().getY();

    LOG.logDebug("brx: " + dWorldBRX + " bry: " + dWorldBRY);

    if (dWorldBRX > (ecwFile.originX + ((ecwFile.width - 1) * ecwFile.cellIncrementX))) // Huh?
      // ECW
      // does
      // not
      // except
      // the
      // full
      // width
      dWorldBRX = ecwFile.originX + ((ecwFile.width - 1) * ecwFile.cellIncrementX);
    if (dWorldBRY
        < (ecwFile.originY
            + (ecwFile.height * ecwFile.cellIncrementY)
            - (ecwFile.cellIncrementY / 2)))
      dWorldBRY =
          ecwFile.originY
              + (ecwFile.height * ecwFile.cellIncrementY)
              - (ecwFile.cellIncrementY / 2);

    // Work out the correct aspect for the setView call.
    // double dEnvAspect = (dWorldBRX - dWorldTLX) / (dWorldTLY - dWorldBRY);
    // double dImgAspect = (double) width / (double) height;

    LOG.logDebug("tlx: " + dWorldTLX + " tly: " + dWorldTLY);
    LOG.logDebug("brx: " + dWorldBRX + " bry: " + dWorldBRY);
    LOG.logDebug("width: " + width + " height: " + height);

    int nDatasetTLX = (int) Math.round((dWorldTLX - ecwFile.originX) / ecwFile.cellIncrementX);
    int nDatasetTLY = (int) Math.round((dWorldTLY - ecwFile.originY) / ecwFile.cellIncrementY);

    LOG.logDebug("ptlx: " + nDatasetTLX + " ptly: " + nDatasetTLY);

    int nDatasetBRX = (int) Math.round((dWorldBRX - ecwFile.originX) / ecwFile.cellIncrementX);
    int nDatasetBRY = (int) Math.round((dWorldBRY - ecwFile.originY) / ecwFile.cellIncrementY);

    LOG.logDebug("pbrx: " + nDatasetBRX + " pbry: " + nDatasetBRY);

    if (nDatasetBRX > (ecwFile.width - 1)) nDatasetBRX = ecwFile.width - 1;
    if (nDatasetBRY > (ecwFile.height - 1)) nDatasetBRY = ecwFile.height - 1;

    LOG.logDebug("pbrx: " + nDatasetBRX + " pbry: " + nDatasetBRY);

    // Check for supersampling
    int viewWidth = width;
    int viewHeight = height;
    if ((nDatasetBRX - nDatasetTLX) < viewWidth || (nDatasetBRY - nDatasetTLY) < viewHeight) {
      viewWidth = nDatasetBRX - nDatasetTLX;
      viewHeight = nDatasetBRY - nDatasetTLY;
    }
    if (viewWidth == 0) viewWidth = 1;
    if (viewHeight == 0) viewHeight = 1;

    LOG.logDebug("Width: " + width + " Height: " + height);
    LOG.logDebug("viewWidth: " + viewWidth + " viewHeight: " + viewHeight);

    // Create an image of the ecw file.
    BufferedImage ecwImage = new BufferedImage(viewWidth, viewHeight, BufferedImage.TYPE_INT_RGB);
    pRGBArray = new int[width];

    // Set the view
    ecwFile.setView(
        ecwFile.numBands,
        bandlist,
        nDatasetTLX,
        nDatasetTLY,
        nDatasetBRX,
        nDatasetBRY,
        viewWidth,
        viewHeight);

    // Read the scan lines
    for (line = 0; line < viewHeight; line++) {
      ecwFile.readLineRGBA(pRGBArray);
      ecwImage.setRGB(0, line, viewWidth, 1, pRGBArray, 0, viewWidth);
    }

    if (width != viewWidth || height != viewHeight) {
      LOG.logDebug("enlarge image");
      BufferedImage enlargedImg = new BufferedImage(width, height, BufferedImage.TYPE_INT_RGB);
      Graphics g = enlargedImg.getGraphics();
      g.drawImage(ecwImage, 0, 0, width, height, 0, 0, viewWidth, viewHeight, null);
      ecwImage = enlargedImg;
      g.dispose();
    }

    return ecwImage;
  }