Source Code of org.geoserver.wms.worldwind.util.BilWCSUtils

package org.geoserver.wms.worldwind.util;

import java.util.HashMap;

import javax.media.jai.Interpolation;

import org.geotools.coverage.grid.GridCoverage2D;
import org.geotools.coverage.grid.GridGeometry2D;
import org.geotools.coverage.processing.DefaultProcessor;
import org.geotools.coverage.processing.operation.Crop;
import org.geotools.coverage.processing.operation.FilteredSubsample;
import org.geotools.coverage.processing.operation.Interpolate;
import org.geotools.coverage.processing.operation.Resample;
import org.geotools.coverage.processing.operation.Scale;
import org.geotools.coverage.processing.operation.SelectSampleDimension;
import org.geotools.factory.Hints;
import org.geotools.geometry.GeneralEnvelope;
import org.geotools.referencing.CRS;
import org.opengis.coverage.Coverage;
import org.opengis.coverage.grid.GridCoverage;
import org.opengis.coverage.grid.GridEnvelope;
import org.opengis.parameter.ParameterValueGroup;
import org.opengis.referencing.crs.CoordinateReferenceSystem;
import org.vfny.geoserver.util.WCSUtils;
import org.vfny.geoserver.wcs.WcsException;

/**
 * This class adds the missing data mangling with
 * geotools functions from 2.0.x WCSUtils. They were
 * removed for deprecation reasons, this is a placeholder
 * till more permanent solutions are found
 * @author Tishampati Dhar
 * @since 2.1.x
 */
public class BilWCSUtils extends WCSUtils {

    public final static Hints LENIENT_HINT = new Hints(Hints.LENIENT_DATUM_SHIFT, Boolean.TRUE);

    private final static SelectSampleDimension bandSelectFactory = new SelectSampleDimension();
    private final static Crop cropFactory = new Crop();
    private final static Interpolate interpolateFactory = new Interpolate();
    private final static Scale scaleFactory = new Scale();
    private final static FilteredSubsample filteredSubsampleFactory = new FilteredSubsample();
    private final static Resample resampleFactory = new Resample();

    static {
        // ///////////////////////////////////////////////////////////////////
        //
        // Static Processors
        //
        // ///////////////////////////////////////////////////////////////////
        final DefaultProcessor processor = new DefaultProcessor();
        bandSelectParams = processor.getOperation("SelectSampleDimension").getParameters();
        cropParams = processor.getOperation("CoverageCrop").getParameters();
        interpolateParams = processor.getOperation("Interpolate").getParameters();
        scaleParams = processor.getOperation("Scale").getParameters();
        resampleParams = processor.getOperation("Resample").getParameters();
        filteredSubsampleParams = processor.getOperation("FilteredSubsample").getParameters();
    }

    private final static ParameterValueGroup bandSelectParams;
    private final static ParameterValueGroup cropParams;
    private final static ParameterValueGroup interpolateParams;
    private final static ParameterValueGroup resampleParams;
    private final static ParameterValueGroup scaleParams;
    private final static ParameterValueGroup filteredSubsampleParams;
    private final static Hints hints = new Hints(new HashMap(5));

    static {
        hints.add(LENIENT_HINT);
    }


  /**
     * <strong>Reprojecting</strong><br>
     * The new grid geometry can have a different coordinate reference system
     * than the underlying grid geometry. For example, a grid coverage can be
     * reprojected from a geodetic coordinate reference system to Universal
     * Transverse Mercator CRS.
     *
     * @param coverage
     *            GridCoverage2D
     * @param sourceCRS
     *            CoordinateReferenceSystem
     * @param targetCRS
     *            CoordinateReferenceSystem
     * @return GridCoverage2D
     * @throws WcsException
     */
    public static GridCoverage2D reproject(GridCoverage2D coverage,
        final CoordinateReferenceSystem sourceCRS, final CoordinateReferenceSystem targetCRS,
        final Interpolation interpolation) throws WcsException {
        // ///////////////////////////////////////////////////////////////////
        //
        // REPROJECT
        //
        //
        // ///////////////////////////////////////////////////////////////////
        if (!CRS.equalsIgnoreMetadata(sourceCRS, targetCRS)) {
            /*
             * Operations.DEFAULT.resample( coverage, targetCRS, null,
             * Interpolation.getInstance(Interpolation.INTERP_NEAREST))
             */
            final ParameterValueGroup param = (ParameterValueGroup) resampleParams.clone();
            param.parameter("Source").setValue(coverage);
            param.parameter("CoordinateReferenceSystem").setValue(targetCRS);
            param.parameter("GridGeometry").setValue(null);
            param.parameter("InterpolationType").setValue(interpolation);

            coverage = (GridCoverage2D) resampleFactory.doOperation(param, hints);
        }

        return coverage;
    }

    /**
     * <strong>Scaling</strong><br>
     * Let user to scale down to the EXACT needed resolution. This step does not
     * prevent from having loaded an overview of the original image based on the
     * requested scale.
     *
     * @param coverage
     *            GridCoverage2D
     * @param newGridRange
     *            GridRange
     * @param sourceCoverage
     *            GridCoverage
     * @param sourceCRS
     *            CoordinateReferenceSystem
     * @param destinationEnvelopeInSourceCRS
     * @return GridCoverage2D
     */
    public static GridCoverage2D scale(final GridCoverage2D coverage, final GridEnvelope newGridRange,
        final GridCoverage sourceCoverage, final CoordinateReferenceSystem sourceCRS,
        final GeneralEnvelope destinationEnvelopeInSourceCRS) {
        // ///////////////////////////////////////////////////////////////////
        //
        // SCALE to the needed resolution
        // Let me now scale down to the EXACT needed resolution. This step does
        // not prevent from having loaded an overview of the original image
        // based on the requested scale.
        //
        // ///////////////////////////////////////////////////////////////////
        GridGeometry2D scaledGridGeometry = new GridGeometry2D(newGridRange,
                (destinationEnvelopeInSourceCRS != null) ? destinationEnvelopeInSourceCRS
                                                         : sourceCoverage.getEnvelope());

        /*
         * Operations.DEFAULT.resample( coverage, sourceCRS, scaledGridGeometry,
         * Interpolation.getInstance(Interpolation.INTERP_NEAREST));
         */
        final ParameterValueGroup param = (ParameterValueGroup) resampleParams.clone();
        param.parameter("Source").setValue(coverage);
        param.parameter("CoordinateReferenceSystem").setValue(sourceCRS);
        param.parameter("GridGeometry").setValue(scaledGridGeometry);
        param.parameter("InterpolationType")
             .setValue(Interpolation.getInstance(Interpolation.INTERP_NEAREST));

        final GridCoverage2D scaledGridCoverage = (GridCoverage2D) resampleFactory.doOperation(param,
                hints);

        return scaledGridCoverage;
    }

    /**
     * <strong>Cropping</strong><br>
     * The crop operation is responsible for selecting geographic subareas of
     * the source coverage.
     *
     * @param coverage
     *            Coverage
     * @param sourceEnvelope
     *            GeneralEnvelope
     * @param sourceCRS
     *            CoordinateReferenceSystem
     * @param destinationEnvelopeInSourceCRS
     *            GeneralEnvelope
     * @return GridCoverage2D
     * @throws WcsException
     */
    public static GridCoverage2D crop(final Coverage coverage,
        final GeneralEnvelope sourceEnvelope, final CoordinateReferenceSystem sourceCRS,
        final GeneralEnvelope destinationEnvelopeInSourceCRS, final Boolean conserveEnvelope)
        throws WcsException {
        // ///////////////////////////////////////////////////////////////////
        //
        // CROP
        //
        //
        // ///////////////////////////////////////////////////////////////////
        final GridCoverage2D croppedGridCoverage;

        // intersect the envelopes
        final GeneralEnvelope intersectionEnvelope = new GeneralEnvelope(destinationEnvelopeInSourceCRS);
        intersectionEnvelope.setCoordinateReferenceSystem(sourceCRS);
        intersectionEnvelope.intersect((GeneralEnvelope) sourceEnvelope);

        // dow we have something to show?
        if (intersectionEnvelope.isEmpty()) {
            throw new WcsException("The Intersection is null. Check the requested BBOX!");
        }

        if (!intersectionEnvelope.equals((GeneralEnvelope) sourceEnvelope)) {
            // get the cropped grid geometry
            // final GridGeometry2D cropGridGeometry = getCroppedGridGeometry(
            // intersectionEnvelope, gridCoverage);

            /* Operations.DEFAULT.crop(coverage, intersectionEnvelope) */
            final ParameterValueGroup param = (ParameterValueGroup) cropParams.clone();
            param.parameter("Source").setValue(coverage);
            param.parameter("Envelope").setValue(intersectionEnvelope);
            //param.parameter("ConserveEnvelope").setValue(conserveEnvelope);

            croppedGridCoverage = (GridCoverage2D) cropFactory.doOperation(param, hints);
        } else {
            croppedGridCoverage = (GridCoverage2D) coverage;
        }

        // prefetch to be faster afterwards.
        // This step is important since at this stage we might be loading tiles
        // from disk
        croppedGridCoverage.prefetch(intersectionEnvelope.toRectangle2D());

        return croppedGridCoverage;
    }
}