view flys-artifacts/src/main/java/de/intevation/flys/collections/AttributeWriter.java @ 2074:a026d005accd

Moved JFreeChart specific classes to de.intevation.flys.jfree and added required imports. flys-artifacts/trunk@3585 c6561f87-3c4e-4783-a992-168aeb5c3f6f
author Ingo Weinzierl <ingo.weinzierl@intevation.de>
date Wed, 04 Jan 2012 14:43:48 +0000
parents c6432e8ea31e
children ca6ccf722c24
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package de.intevation.flys.collections;

import java.util.ArrayList;
import java.util.List;
import java.util.HashMap;
import java.util.Map;

import org.apache.log4j.Logger;

import de.intevation.artifacts.ArtifactDatabase;
import de.intevation.artifacts.ArtifactDatabaseException;

import de.intevation.artifactdatabase.state.Facet;
import de.intevation.artifactdatabase.state.Output;

import de.intevation.flys.artifacts.FLYSArtifact;
import de.intevation.flys.artifacts.model.ManagedFacet;

/**
 * Create attribute- element of describe document of an ArtifactCollection.
 * The attribute-element contains the merged output of all outputmodes and
 * facets that are part of the collection.
 */
public class AttributeWriter {

    /** ArtifactDatabase used to fetch Artifacts. */
    protected ArtifactDatabase db = null;

    protected Map<String, Output> oldAttr;

    protected Map<String, Output> newAttr;

    /** List of already seen facets. */
    protected List<Facet>         oldFacets;

    /** List of "new" facets. */
    protected List<Facet>         newFacets;

    /**
     * "Compatibility matrix", mapws list of facet names to output names.
     * Any facet that is not found in the list for a specific output will
     * not be added to the resulting document.
     */
    protected Map<String, List<String>> compatibilities;


    /** The result of the <i>write()</i> operation.*/
    protected CollectionAttribute attribute;


    private static Logger logger = Logger.getLogger(AttributeWriter.class);


    /**
     * Create a AttributeWriter.
     * Attributes not present in newAttr will not be included in the document.
     * @param db      Database to fetch artifacts.
     * @param oldAttr "Old" (possibly user-changed) outputs.
     * @param newAttr "New" (eventually re-read in its original, unchanged
     *                form) outputs.
     */
    public AttributeWriter(
        ArtifactDatabase    db,
        CollectionAttribute attribute,
        Map<String, Output> oldAttr,
        List<Facet>         oldFacets,
        Map<String, Output> newAttr,
        List<Facet>         newFacets,
        Map<String, List<String>> matrix)
    {
        this.db        = db;
        this.attribute = attribute;
        this.oldAttr   = oldAttr;
        this.newAttr   = newAttr;
        this.oldFacets = oldFacets;
        this.newFacets = newFacets;
        this.compatibilities = matrix;
    }


    /**
     * Create document by merging outputs given in
     * constructor.
     *
     * The "new" set rules about existance of attributes, so anything not
     * present in it will not be included in the resulting document.
     * The "old" set rules about the content of attributes (as user changes
     * are recorded here and not in the new set).
     *
     * @return document with merged outputs as described.
     */
    protected CollectionAttribute write() {
        for (Map.Entry<String, Output> entry: newAttr.entrySet()) {
            String outName = entry.getKey();
            Output a       = entry.getValue();

            Output exists = attribute.getOutput(outName);
            if (exists == null) {
                attribute.addOutput(outName, a);
            }

            attribute.clearFacets(outName);
            writeOutput(a.getName(), newFacets, oldFacets);
        }

        return attribute;
    }


    /**
     * @param outputName the "new" outputs name
     * @param newOutFacets Facets of the new outputs
     * @param oldOutFacets Facets of the old outputs (can be null)
     */
    protected void writeOutput(
        String      outputName,
        List<Facet> newOutFacets,
        List<Facet> oldOutFacets
    ) {
        List<String> compatFacets = this.compatibilities.get(outputName);
        try {
            writeFacets(outputName, newOutFacets, oldOutFacets, compatFacets);
        }
        catch (ArtifactDatabaseException ade) {
            logger.error(ade, ade);
        }
    }


    /**
     * @param newFacets the new facets
     * @param oldFacets the old facets
     * @param compatibleFacets List of facets to accept
     * @return true if any facets are written to the out.
     */
    protected boolean writeFacets(
        String         outputName,
        List<Facet>    newFacets,
        List<Facet>    oldFacets,
        List<String>   compatibleFacets)
    throws ArtifactDatabaseException
    {
        if (compatibleFacets == null) {
            logger.warn("No compatible facets, not generating out.");
            return false;
        }

        int num = newFacets.size();

        // Add all new Facets either in their old state or (if really
        // new) as they are.
        List<ManagedFacet> currentFacets      = new ArrayList<ManagedFacet>();
        List<ManagedFacet> genuinelyNewFacets = new ArrayList<ManagedFacet>();

        for (int i = 0; i < num; i++) {
            ManagedFacet facet = (ManagedFacet) newFacets.get(i);
            if (!compatibleFacets.contains(facet.getName())) {
                //logger.debug("Have incompatible facet, skip: " + facet.getName());
                continue;
            }
            //else logger.debug("Have compatible facet: " + facet.getName());

            ManagedFacet picked = pickFacet(facet, oldFacets);

            if (facet.equals(picked)) {
                genuinelyNewFacets.add(picked);
            }
            else {
                currentFacets.add(picked);
            }
        }

        // With each genuinely new Facet, ask Artifact whether it comes to live
        // in/activate.
        for (ManagedFacet newMF: genuinelyNewFacets) {
            FLYSArtifact flys = (FLYSArtifact) db.getRawArtifact(newMF.getArtifact());
            newMF.setActive(flys.getInitialFacetActivity(
                outputName,
                newMF.getName(),
                newMF.getIndex()));
        }

        // For each genuinely new Facet check positional conflicts.
        for (ManagedFacet newMF: genuinelyNewFacets) {
            boolean conflicts = true;
            // Loop until all conflicts resolved.
            while (conflicts) {
                conflicts = false;
                for (ManagedFacet oldMF: currentFacets) {
                    if (newMF.getPosition() == oldMF.getPosition()) {
                        conflicts = true;
                        logger.debug("Positional conflict while merging " +
                            "facets, pushing newest facet 1 up (" + newMF.getPosition() + ")");
                        newMF.setPosition(newMF.getPosition() + 1);
                        break;
                    }
                }
            }
            currentFacets.add(newMF);
        }

        // Fill/correct "gaps" (e.g. position 1,2,5 are taken, after gap filling
        // expect positions 1,2,3 [5->3])
        // Preparations to be able to detect gaps.
        Map<Integer, ManagedFacet> mfmap = new HashMap<Integer, ManagedFacet>();
        int max = 0;
        for (ManagedFacet mf: currentFacets) {
            int pos = mf.getPosition();
            mfmap.put(Integer.valueOf(pos), mf);
            if (pos > max) max = pos;
        }

        // Finally do gap correction.
        if (max != currentFacets.size()) {
            int gap = 0;
            for (int i = 1; i <= max; i++) {
                ManagedFacet mf = mfmap.get(Integer.valueOf(i));
                if (mf == null) {
                    gap++;
                    continue;
                }
                mf.setPosition(mf.getPosition() - gap);
            }
        }

        // Now add all facets.
        for (ManagedFacet oldMF: currentFacets) {
            attribute.addFacet(outputName, oldMF);
        }

        return currentFacets.size() > 0;
    }


    /**
     * Returns the facet to be added to Document.
     * Return the new facet only if the "same" facet was not present before.
     * Return the "old" facet otherwise (user-defined information sticks
     * to it).
     * @param facet     the new facet.
     * @param oldFacets the old facets, new facet is compared against each of
     *                  these.
     * @return facet if genuinely new, matching old facet otherwise.
     */
    protected ManagedFacet pickFacet(ManagedFacet facet, List<Facet> oldFacets)
    {
        if (oldFacets == null) {
            logger.debug("No old facets to compare a new to found.");
            return facet;
        }

        String hash = facet.getName() + facet.getIndex() + facet.getArtifact();

        // Compare "new" facet with all old facets.
        // Take oldFacet if that facet was already present (otherwise
        // information is lost, the new one otherwise.
        for (Facet oFacet: oldFacets) {
            ManagedFacet oldFacet = (ManagedFacet) oFacet;
            String oldHash = oldFacet.getName()
                           + oldFacet.getIndex()
                           + oldFacet.getArtifact();
            if (hash.equals(oldHash)) {
                return oldFacet;
            }
        }
        return facet;
    }
}
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