Пример #1
0
 /** Processes a request */
 @Override
 public void process(ProgressMonitor pm) throws ProcessorException {
   pm.beginTask("Finalizing L3 Product...", 3);
   try {
     try {
       loadRequestParameter();
       loadContext();
       loadTemporalDatabase();
       pm.worked(1);
       if (context.algorithmNeedsInterpretation()) {
         try {
           interpreteAlgorithm(SubProgressMonitor.create(pm, 1));
         } finally {
           deleteFinalDatabase();
         }
       } else {
         exportBinDatabase(
             temporalDB,
             createProjection(),
             outputProductRef,
             context.getBandDefinitions(),
             getMetadata(),
             SubProgressMonitor.create(pm, 1));
       }
     } finally {
       deleteTemporalDatabase();
       pm.worked(1);
     }
   } catch (IOException e) {
     throw new ProcessorException(e.getMessage(), e);
   } finally {
     pm.done();
   }
 }
Пример #2
0
  /**
   * Processes the request actually set.
   *
   * @param pm a monitor to inform the user about progress
   * @throws org.esa.beam.framework.processor.ProcessorException on any failure during processing
   */
  @Override
  public void process(ProgressMonitor pm) throws ProcessorException {
    try {
      prepareProcessing();
      pm.beginTask("Creating output product...", _inputBandList.size() + 1);
      try {

        createOutputProduct(SubProgressMonitor.create(pm, 1));
        if (pm.isCanceled()) {
          setCurrentStatus(ProcessorConstants.STATUS_ABORTED);
          return;
        }

        // loop over all bands specified in request
        // ----------------------------------------
        pm.setSubTaskName(SmacConstants.LOG_MSG_PROCESSING_CORRECTION);
        for (int i = 0; i < _inputBandList.size(); i++) {
          try {
            // here we use a try/catch for each band processed, so that the processor does not
            // completely quit
            // when something goes wrong while processing on of many bands
            // And we definitely decide which product type and dispacth appropriate.
            if (ObjectUtils.equalObjects(_sensorType, SensorCoefficientManager.MERIS_NAME)) {
              if (_useMerisADS) {
                processMerisBandWithADS(_inputBandList.get(i), SubProgressMonitor.create(pm, 1));
              } else {
                processMerisBand(_inputBandList.get(i), SubProgressMonitor.create(pm, 1));
              }
            } else if (ObjectUtils.equalObjects(_sensorType, SensorCoefficientManager.AATSR_NAME)) {
              processAatsrBand(_inputBandList.get(i), SubProgressMonitor.create(pm, 1));
            } else {
              pm.worked(1);
            }

            if (pm.isCanceled()) {
              setCurrentStatus(ProcessorConstants.STATUS_ABORTED);
              return;
            }
          } catch (IOException e) {
            _logger.severe(ProcessorConstants.LOG_MSG_PROC_ERROR);
            _logger.severe(e.getMessage());
          }
        }
      } finally {
        cleanUp();
        pm.done();
      }
    } catch (IOException e) {
      throw new ProcessorException("An I/O error occured:\n" + e.getMessage(), e);
    }

    _logger.info(ProcessorConstants.LOG_MSG_FINISHED_REQUEST);
  }
Пример #3
0
    private BufferedImage createThumbNailImage(Dimension imgSize, ProgressMonitor pm) {
      Assert.notNull(pm, "pm");

      String thumbNailBandName = getThumbnailBandName();
      Band thumbNailBand = product.getBand(thumbNailBandName);

      Debug.trace(
          "ProductSubsetDialog: Reading thumbnail data for band '" + thumbNailBandName + "'...");
      pm.beginTask("Creating thumbnail image", 5);
      BufferedImage image = null;
      try {
        MultiLevelSource multiLevelSource =
            BandImageMultiLevelSource.create(thumbNailBand, SubProgressMonitor.create(pm, 1));
        final ImageLayer imageLayer = new ImageLayer(multiLevelSource);
        final int imageWidth = imgSize.width;
        final int imageHeight = imgSize.height;
        final int imageType = BufferedImage.TYPE_3BYTE_BGR;
        image = new BufferedImage(imageWidth, imageHeight, imageType);
        Viewport snapshotVp = new DefaultViewport(isModelYAxisDown(imageLayer));
        final BufferedImageRendering imageRendering = new BufferedImageRendering(image, snapshotVp);

        final Graphics2D graphics = imageRendering.getGraphics();
        graphics.setColor(getBackground());
        graphics.fillRect(0, 0, imageWidth, imageHeight);

        snapshotVp.zoom(imageLayer.getModelBounds());
        snapshotVp.moveViewDelta(snapshotVp.getViewBounds().x, snapshotVp.getViewBounds().y);
        imageLayer.render(imageRendering);

        pm.worked(4);
      } finally {
        pm.done();
      }
      return image;
    }
Пример #4
0
 private void readBandRasterDataSubSampling(
     Band sourceBand,
     int sourceOffsetX,
     int sourceOffsetY,
     int sourceWidth,
     int sourceHeight,
     int sourceStepX,
     int sourceStepY,
     ProductData destBuffer,
     int destWidth,
     ProgressMonitor pm)
     throws IOException {
   final int sourceMinY = sourceOffsetY;
   final int sourceMaxY = sourceOffsetY + sourceHeight - 1;
   ProductData lineBuffer = ProductData.createInstance(destBuffer.getType(), sourceWidth);
   int destPos = 0;
   try {
     pm.beginTask("Reading sub sampled raster data...", 2 * (sourceMaxY - sourceMinY));
     for (int sourceY = sourceMinY; sourceY <= sourceMaxY; sourceY += sourceStepY) {
       sourceBand.readRasterData(
           sourceOffsetX, sourceY, sourceWidth, 1, lineBuffer, SubProgressMonitor.create(pm, 1));
       if (sourceStepX == 1) {
         copyData(lineBuffer, 0, destBuffer, destPos, destWidth);
       } else {
         copyLine(lineBuffer, 0, sourceWidth, sourceStepX, destBuffer, destPos);
       }
       pm.worked(1);
       destPos += destWidth;
     }
   } finally {
     pm.done();
   }
 }
Пример #5
0
  private void interpreteAlgorithm(ProgressMonitor pm) throws IOException, ProcessorException {
    pm.beginTask("Interpreting algorithm...", 2);
    try {
      createFinalDatabase();
      processBinIterpretation(SubProgressMonitor.create(pm, 1));

      exportBinDatabase(
          finalDB,
          createProjection(),
          outputProductRef,
          context.getBandDefinitions(),
          getMetadata(),
          SubProgressMonitor.create(pm, 1));
    } finally {
      pm.done();
    }
  }
Пример #6
0
  /**
   * Exports the given bin database into the specified product.
   *
   * @param binDatabase the bin database to be exported
   * @param projection the projection, that should be used.
   * @param productRef the productRef, that describes the product to which to export to
   * @param bandDefinitions
   * @param metadata an array with the metadata.
   * @param pm a monitor to inform the user about progress
   * @throws IOException
   * @throws ProcessorException
   */
  protected void exportBinDatabase(
      TemporalBinDatabase binDatabase,
      L3ProjectionRaster projection,
      ProductRef productRef,
      L3Context.BandDefinition[] bandDefinitions,
      MetadataElement[] metadata,
      ProgressMonitor pm)
      throws IOException, ProcessorException {
    ProductExporter exporter = new ProductExporter(binDatabase, getLogger());

    final float stepsPerDegree;
    if (L3Constants.RESAMPLING_TYPE_VALUE_BINNING.equals(context.getResamplingType())) {
      final float kmPerDegree = BinDatabaseConstants.PI_EARTH_RADIUS / 180.f;
      final float gridCellSizeInKm = context.getGridCellSize();
      stepsPerDegree = kmPerDegree / gridCellSizeInKm;
    } else {
      stepsPerDegree = context.getGridCellSize();
    }
    exporter.setProjection(projection, stepsPerDegree);

    pm.beginTask("Exporting bin database...", tailorOutputProduct ? 2 : 1);
    boolean aborted;
    try {
      if (tailorOutputProduct) {
        exporter.estimateExportRegion(SubProgressMonitor.create(pm, 1));
      } else {
        exporter.setExportRegion(context.getBorder());
      }
      aborted = false;
      try {
        exporter.createOutputProduct(productRef, bandDefinitions, metadata);
        aborted =
            exporter.outputBinDatabase(context.getLocator(), SubProgressMonitor.create(pm, 1));
      } catch (IOException e) {
        throw new ProcessorException("Couldn't export product: " + e.getMessage(), e);
      } finally {
        exporter.close();
      }
    } finally {
      pm.done();
    }
    if (aborted) {
      setCurrentState(L3Constants.STATUS_ABORTED);
    }
  }
    @Override
    protected Product doInBackground(com.bc.ceres.core.ProgressMonitor pm) throws Exception {
      final TargetProductSelectorModel model = getTargetProductSelector().getModel();
      pm.beginTask("Writing...", model.isOpenInAppSelected() ? 100 : 95);
      ProgressMonitorList.instance().add(pm); // NESTMOD
      saveTime = 0L;
      Product product = null;
      try {
        // free cache	// NESTMOD
        JAI.getDefaultInstance().getTileCache().flush();
        System.gc();

        executeStartTime = Calendar.getInstance().getTime();
        long t0 = System.currentTimeMillis();
        Operator operator = null;
        if (targetProduct.getProductReader() instanceof OperatorProductReader) {
          final OperatorProductReader opReader =
              (OperatorProductReader) targetProduct.getProductReader();
          if (opReader.getOperatorContext().getOperator() instanceof Output) {
            operator = opReader.getOperatorContext().getOperator();
          }
        }
        if (operator == null) {
          WriteOp writeOp =
              new WriteOp(targetProduct, model.getProductFile(), model.getFormatName());
          writeOp.setDeleteOutputOnFailure(true);
          writeOp.setWriteEntireTileRows(true);
          writeOp.setClearCacheAfterRowWrite(false);
          operator = writeOp;
        }
        final OperatorExecutor executor = OperatorExecutor.create(operator);
        executor.execute(SubProgressMonitor.create(pm, 95));

        saveTime = System.currentTimeMillis() - t0;
        File targetFile = model.getProductFile();
        if (model.isOpenInAppSelected() && targetFile.exists()) {
          product = ProductIO.readProduct(targetFile);
          if (product == null) {
            product = targetProduct; // todo - check - this cannot be ok!!! (nf)
          }
          pm.worked(5);
        }
      } finally {
        // free cache
        JAI.getDefaultInstance().getTileCache().flush();
        System.gc();

        pm.done();
        ProgressMonitorList.instance().remove(pm); // NESTMOD
        if (product != targetProduct) {
          targetProduct.dispose();
        }
      }
      return product;
    }
Пример #8
0
  // Processes a single AATSR band.
  private void processAatsrBand(Band band, ProgressMonitor pm) throws IOException {
    // load appropriate Sensor coefficientFile and init algorithm
    // ----------------------------------------------------------
    if (!loadBandCoefficients(band)) {
      _logger.severe(
          SmacConstants.LOG_MSG_COEFF_NOT_FOUND_1
              + band.getName()
              + SmacConstants.LOG_MSG_COEFF_NOT_FOUND_2);
      setCurrentStatus(ProcessorConstants.STATUS_FAILED);
      return;
    }

    _logger.info(
        SmacConstants.LOG_MSG_GENERATING_PIXEL_1
            + band.getName()
            + SmacConstants.LOG_MSG_GENERATING_PIXEL_2);

    // initialize vectors and other data
    // ---------------------------------
    int width = band.getSceneRasterWidth();
    int height = band.getSceneRasterHeight();
    Band outBand = _outputProduct.getBand(band.getName());
    boolean isForwardBand = checkForAATSRForwardBand(band);
    float[] sza = new float[width];
    float[] saa = new float[width];
    float[] vza = new float[width];
    float[] vaa = new float[width];
    float[] taup550 = new float[width];
    float[] uh2o = new float[width];
    float[] uo3 = new float[width];
    float[] press = new float[width];
    boolean[] process = new boolean[width];
    float[] toa = new float[width];
    float[] toa_corr = new float[width];

    TiePointGrid szaBand;
    TiePointGrid saaBand;
    TiePointGrid vzaBand;
    TiePointGrid vaaBand;
    Term bitMask;

    // set the tie point bands according to input band view
    // ----------------------------------------------------
    if (isForwardBand) {
      szaBand = _szaFwdBand;
      saaBand = _saaFwdBand;
      vzaBand = _vzaFwdBand;
      vaaBand = _vaaFwdBand;
      bitMask = _bitMaskTermForward;
    } else {
      szaBand = _szaBand;
      saaBand = _saaBand;
      vzaBand = _vzaBand;
      vaaBand = _vaaBand;
      bitMask = _bitMaskTerm;
    }

    // initialize vectors
    // ------------------
    for (int x = 0; x < width; x++) {
      taup550[x] = _tau_aero_550;
      uh2o[x] = _u_h2o;
      uo3[x] = _u_o3;
      press[x] = _surf_press;
      process[x] = true;
    }

    // progress init
    pm.beginTask(
        SmacConstants.LOG_MSG_GENERATING_PIXEL_1
            + band.getName()
            + SmacConstants.LOG_MSG_GENERATING_PIXEL_2,
        height * 6);
    try {
      // loop over all scanlines
      for (int y = 0; y < band.getSceneRasterHeight(); y++) {
        // read scanline
        band.readPixels(0, y, width, 1, toa, SubProgressMonitor.create(pm, 1));
        szaBand.readPixels(0, y, width, 1, sza, SubProgressMonitor.create(pm, 1));
        saaBand.readPixels(0, y, width, 1, saa, SubProgressMonitor.create(pm, 1));
        vzaBand.readPixels(0, y, width, 1, vza, SubProgressMonitor.create(pm, 1));
        vaaBand.readPixels(0, y, width, 1, vaa, SubProgressMonitor.create(pm, 1));

        // scale sun and view elevation to zenith angles
        sza = RsMathUtils.elevationToZenith(sza, sza);
        vza = RsMathUtils.elevationToZenith(vza, sza);

        // forEachPixel bitmask
        if (bitMask != null) {
          _inputProduct.readBitmask(0, y, width, 1, bitMask, process, ProgressMonitor.NULL);
        }

        // process scanline
        toa_corr =
            _algorithm.run(
                sza,
                saa,
                vza,
                vaa,
                taup550,
                uh2o,
                uo3,
                press,
                process,
                _invalidPixel,
                toa,
                toa_corr);

        // write scanline
        outBand.writePixels(0, y, width, 1, toa_corr, ProgressMonitor.NULL);

        // update progress
        pm.worked(1);
        if (pm.isCanceled()) {
          _logger.warning(ProcessorConstants.LOG_MSG_PROC_CANCELED);
          setCurrentStatus(ProcessorConstants.STATUS_ABORTED);
          return;
        }
      }
    } finally {
      pm.done();
    }

    _logger.info(ProcessorConstants.LOG_MSG_PROC_SUCCESS);
  }
Пример #9
0
  // Processes a single band MERIS data using the MERIS ADS.
  private void processMerisBandWithADS(Band band, ProgressMonitor pm) throws IOException {
    // load appropriate Sensor coefficientFile and init algorithm
    // ----------------------------------------------------------
    if (!loadBandCoefficients(band)) {
      _logger.severe(
          SmacConstants.LOG_MSG_COEFF_NOT_FOUND_1
              + band.getName()
              + SmacConstants.LOG_MSG_COEFF_NOT_FOUND_2); /*I18N*/
      setCurrentStatus(ProcessorConstants.STATUS_FAILED);
      return;
    }

    _logger.info(
        SmacConstants.LOG_MSG_GENERATING_PIXEL_1
            + band.getName()
            + SmacConstants.LOG_MSG_GENERATING_PIXEL_2); /*I18N*/

    // initialize vectors and other data
    // ---------------------------------
    int width = band.getSceneRasterWidth();
    int height = band.getSceneRasterHeight();
    Band outBand = _outputProduct.getBand(convertMerisBandName(band));
    float[] sza = new float[width];
    float[] saa = new float[width];
    float[] vza = new float[width];
    float[] vaa = new float[width];
    float[] taup550 = new float[width];
    float[] uh2o = new float[width];
    float[] uo3 = new float[width];
    float[] press = new float[width];
    float[] elev = new float[width];
    boolean[] process = new boolean[width];
    float[] toa = new float[width];
    float[] toa_corr = new float[width];

    // set up vector - this parameter is constant for the request
    for (int x = 0; x < width; x++) {
      taup550[x] = _tau_aero_550;
      process[x] = true;
    }

    // progress bar init
    // -----------------
    pm.beginTask(
        SmacConstants.LOG_MSG_GENERATING_PIXEL_1
            + band.getName()
            + SmacConstants.LOG_MSG_GENERATING_PIXEL_2,
        height * 10);
    try {
      // loop over all scanlines
      // -----------------------
      for (int y = 0; y < height; y++) {
        // read scanline
        // -------------
        band.readPixels(0, y, width, 1, toa, SubProgressMonitor.create(pm, 1));
        _szaBand.readPixels(0, y, width, 1, sza, SubProgressMonitor.create(pm, 1));
        _saaBand.readPixels(0, y, width, 1, saa, SubProgressMonitor.create(pm, 1));
        _vzaBand.readPixels(0, y, width, 1, vza, SubProgressMonitor.create(pm, 1));
        _vaaBand.readPixels(0, y, width, 1, vaa, SubProgressMonitor.create(pm, 1));
        _wvBand.readPixels(0, y, width, 1, uh2o, SubProgressMonitor.create(pm, 1));
        _o3Band.readPixels(0, y, width, 1, uo3, SubProgressMonitor.create(pm, 1));
        _pressBand.readPixels(0, y, width, 1, press, SubProgressMonitor.create(pm, 1));
        _elevBand.readPixels(0, y, width, 1, elev, SubProgressMonitor.create(pm, 1));

        // scale radiance to reflectance
        // -------------------------------
        toa = RsMathUtils.radianceToReflectance(toa, sza, band.getSolarFlux(), toa);

        // correct pressure due to elevation
        // ---------------------------------
        press = RsMathUtils.simpleBarometric(press, elev, press);

        // scale DU to cm * atm
        // ----------------------
        uo3 = dobsonToCmAtm(uo3);

        // scale relative humidity to g/cm^2
        // -----------------------------------
        uh2o = relativeHumidityTogcm2(uh2o);

        // forEachPixel bitmask
        // ----------------
        if (_bitMaskTerm != null) {
          _inputProduct.readBitmask(0, y, width, 1, _bitMaskTerm, process, ProgressMonitor.NULL);
        }

        // process scanline
        // ----------------
        toa_corr =
            _algorithm.run(
                sza,
                saa,
                vza,
                vaa,
                taup550,
                uh2o,
                uo3,
                press,
                process,
                _invalidPixel,
                toa,
                toa_corr);

        // write scanline
        // --------------
        outBand.writePixels(0, y, width, 1, toa_corr, ProgressMonitor.NULL);

        // update progressbar
        // ------------------
        pm.worked(1);
        if (pm.isCanceled()) {
          _logger.warning(ProcessorConstants.LOG_MSG_PROC_CANCELED);
          setCurrentStatus(ProcessorConstants.STATUS_ABORTED);
          return;
        }
      }
    } finally {
      pm.done();
    }

    _logger.info(ProcessorConstants.LOG_MSG_PROC_SUCCESS);
  }
Пример #10
0
  // Processes a single spectralBand of MERIS data.
  private void processMerisBand(Band spectralBand, ProgressMonitor pm) throws IOException {
    // load appropriate Sensor coefficientFile and init algorithm
    // ----------------------------------------------------------
    if (!loadBandCoefficients(spectralBand)) {
      _logger.severe(
          SmacConstants.LOG_MSG_COEFF_NOT_FOUND_1
              + spectralBand.getName()
              + SmacConstants.LOG_MSG_COEFF_NOT_FOUND_2);
      setCurrentStatus(ProcessorConstants.STATUS_FAILED);
      return;
    }

    _logger.info(
        SmacConstants.LOG_MSG_GENERATING_PIXEL_1
            + spectralBand.getName()
            + SmacConstants.LOG_MSG_GENERATING_PIXEL_2); /*I18N*/

    // initialize vectors and other data
    int n;
    int width = spectralBand.getSceneRasterWidth();
    int height = spectralBand.getSceneRasterHeight();
    Band outBand = _outputProduct.getBand(convertMerisBandName(spectralBand));
    float[] sza = new float[width];
    float[] saa = new float[width];
    float[] vza = new float[width];
    float[] vaa = new float[width];
    float[] taup550 = new float[width];
    float[] uh2o = new float[width];
    float[] uo3 = new float[width];
    float[] press = new float[width];
    boolean[] process = new boolean[width];
    float[] toa = new float[width];
    float[] toa_corr = new float[width];

    for (n = 0; n < width; n++) {
      taup550[n] = _tau_aero_550;
      uh2o[n] = _u_h2o;
      uo3[n] = _u_o3;
      press[n] = _surf_press;
      process[n] = true;
    }

    // progress init
    pm.beginTask(
        SmacConstants.LOG_MSG_GENERATING_PIXEL_1
            + spectralBand.getName()
            + SmacConstants.LOG_MSG_GENERATING_PIXEL_2,
        height * 6);
    try {
      // loop over all scanlines
      for (int y = 0; y < spectralBand.getSceneRasterHeight(); y++) {
        // read scanline
        spectralBand.readPixels(0, y, width, 1, toa, SubProgressMonitor.create(pm, 1));
        _szaBand.readPixels(0, y, width, 1, sza, SubProgressMonitor.create(pm, 1));
        _saaBand.readPixels(0, y, width, 1, saa, SubProgressMonitor.create(pm, 1));
        _vzaBand.readPixels(0, y, width, 1, vza, SubProgressMonitor.create(pm, 1));
        _vaaBand.readPixels(0, y, width, 1, vaa, SubProgressMonitor.create(pm, 1));

        // scale radiances to reflectances
        toa = RsMathUtils.radianceToReflectance(toa, sza, spectralBand.getSolarFlux(), toa);

        // forEachPixel bitmask
        if (_bitMaskTerm != null) {
          _inputProduct.readBitmask(0, y, width, 1, _bitMaskTerm, process, ProgressMonitor.NULL);
        }

        // process scanline
        toa_corr =
            _algorithm.run(
                sza,
                saa,
                vza,
                vaa,
                taup550,
                uh2o,
                uo3,
                press,
                process,
                _invalidPixel,
                toa,
                toa_corr);

        // write scanline
        outBand.writePixels(0, y, width, 1, toa_corr, ProgressMonitor.NULL);

        // update progressbar
        pm.worked(1);
        if (pm.isCanceled()) {
          _logger.warning(ProcessorConstants.LOG_MSG_PROC_CANCELED);
          setCurrentStatus(ProcessorConstants.STATUS_ABORTED);
          return;
        }
      }
    } finally {
      pm.done();
    }

    _logger.info(ProcessorConstants.LOG_MSG_PROC_SUCCESS);
  }