package de.lmu.ifi.dbs.elki.visualization.visualizers.parallel.selection;
/*
This file is part of ELKI:
Environment for Developing KDD-Applications Supported by Index-Structures
Copyright (C) 2011
Ludwig-Maximilians-Universität München
Lehr- und Forschungseinheit für Datenbanksysteme
ELKI Development Team
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
import java.util.ArrayList;
import org.apache.batik.util.SVGConstants;
import org.w3c.dom.Element;
import org.w3c.dom.events.Event;
import org.w3c.dom.svg.SVGPoint;
import de.lmu.ifi.dbs.elki.data.NumberVector;
import de.lmu.ifi.dbs.elki.database.ids.DBID;
import de.lmu.ifi.dbs.elki.database.ids.DBIDUtil;
import de.lmu.ifi.dbs.elki.database.ids.ModifiableDBIDs;
import de.lmu.ifi.dbs.elki.logging.Logging;
import de.lmu.ifi.dbs.elki.result.DBIDSelection;
import de.lmu.ifi.dbs.elki.result.HierarchicalResult;
import de.lmu.ifi.dbs.elki.result.RangeSelection;
import de.lmu.ifi.dbs.elki.result.Result;
import de.lmu.ifi.dbs.elki.result.ResultUtil;
import de.lmu.ifi.dbs.elki.result.SelectionResult;
import de.lmu.ifi.dbs.elki.utilities.iterator.IterableIterator;
import de.lmu.ifi.dbs.elki.utilities.pairs.DoubleDoublePair;
import de.lmu.ifi.dbs.elki.visualization.VisualizationTask;
import de.lmu.ifi.dbs.elki.visualization.batikutil.DragableArea;
import de.lmu.ifi.dbs.elki.visualization.css.CSSClass;
import de.lmu.ifi.dbs.elki.visualization.projections.Projection;
import de.lmu.ifi.dbs.elki.visualization.projector.ParallelPlotProjector;
import de.lmu.ifi.dbs.elki.visualization.style.StyleLibrary;
import de.lmu.ifi.dbs.elki.visualization.svg.SVGPlot;
import de.lmu.ifi.dbs.elki.visualization.svg.SVGUtil;
import de.lmu.ifi.dbs.elki.visualization.visualizers.AbstractVisFactory;
import de.lmu.ifi.dbs.elki.visualization.visualizers.Visualization;
import de.lmu.ifi.dbs.elki.visualization.visualizers.parallel.AbstractParallelVisualization;
/**
* Tool-Visualization for the tool to select axis ranges
*
* @author Robert Rödler
*
* @apiviz.has SelectionResult oneway - - updates
* @apiviz.has RangeSelection oneway - - updates
*/
public class SelectionToolAxisRangeVisualization extends AbstractParallelVisualization<NumberVector<?, ?>> implements DragableArea.DragListener {
/**
* The logger for this class.
*/
protected static final Logging logger = Logging.getLogger(SelectionToolAxisRangeVisualization.class);
/**
* A short name characterizing this Visualizer.
*/
private static final String NAME = "Axis Range Selection";
/**
* Generic tag to indicate the type of element. Used in IDs, CSS-Classes etc.
*/
private static final String CSS_RANGEMARKER = "selectionAxisRangeMarker";
/**
* Element for selection rectangle
*/
private Element rtag;
/**
* Element for the rectangle to add listeners
*/
private Element etag;
/**
* Constructor.
*
* @param task Task
*/
public SelectionToolAxisRangeVisualization(VisualizationTask task) {
super(task);
incrementalRedraw();
}
@Override
public void destroy() {
super.destroy();
}
@Override
protected void redraw() {
addCSSClasses(svgp);
// rtag: tag for the selected rect
rtag = svgp.svgElement(SVGConstants.SVG_G_TAG);
SVGUtil.addCSSClass(rtag, CSS_RANGEMARKER);
layer.appendChild(rtag);
// etag: sensitive area
DragableArea drag = new DragableArea(svgp, -.1 * getMarginLeft(), -.1 * getMarginTop(), getSizeX() + getMarginLeft() * .2, getSizeY() + getMarginTop() * .2, this);
etag = drag.getElement();
layer.appendChild(etag);
}
/**
* Delete the children of the element
*
* @param container SVG-Element
*/
private void deleteChildren(Element container) {
while(container.hasChildNodes()) {
container.removeChild(container.getLastChild());
}
}
/**
* Set the selected ranges and the mask for the actual dimensions in the
* context
*
* @param x1 min x-value
* @param x2 max x-value
* @param y1 min y-value
* @param y2 max y-value
*/
private void updateSelectionRectKoordinates(double x1, double x2, double y1, double y2, DoubleDoublePair[] ranges) {
final int dim = proj.getVisibleDimensions();
int minaxis = dim + 1;
int maxaxis = -1;
{
int i = 0;
while(i < dim) {
double axx = getVisibleAxisX(i);
if(x1 < axx || x2 < axx) {
minaxis = i;
break;
}
i++;
}
while(i <= dim) {
double axx = getVisibleAxisX(i);
if(x2 < axx && x1 < axx) {
maxaxis = i;
break;
}
i++;
}
}
double z1 = Math.max(Math.min(y1, y2), 0);
double z2 = Math.min(Math.max(y1, y2), getSizeY());
for(int i = minaxis; i < maxaxis; i++) {
double v1 = proj.fastProjectRenderToDataSpace(z1, i);
double v2 = proj.fastProjectRenderToDataSpace(z2, i);
if (logger.isDebugging()) {
logger.debug("Axis "+i+" dimension "+proj.getDimForVisibleAxis(i)+" "+v1+" to "+v2);
}
ranges[proj.getDimForVisibleAxis(i)] = new DoubleDoublePair(Math.min(v1, v2), Math.max(v1, v2));
}
}
@Override
public boolean startDrag(SVGPoint startPoint, Event evt) {
return true;
}
@Override
public boolean duringDrag(SVGPoint startPoint, SVGPoint dragPoint, Event evt, boolean inside) {
deleteChildren(rtag);
double x = Math.min(startPoint.getX(), dragPoint.getX());
double y = Math.min(startPoint.getY(), dragPoint.getY());
double width = Math.abs(startPoint.getX() - dragPoint.getX());
double height = Math.abs(startPoint.getY() - dragPoint.getY());
rtag.appendChild(svgp.svgRect(x, y, width, height));
return true;
}
@Override
public boolean endDrag(SVGPoint startPoint, SVGPoint dragPoint, Event evt, boolean inside) {
deleteChildren(rtag);
if(startPoint.getX() != dragPoint.getX() || startPoint.getY() != dragPoint.getY()) {
updateSelection(proj, startPoint, dragPoint);
}
return true;
}
/**
* Update the selection in the context.
*
* @param proj The projection
* @param p1 First Point of the selected rectangle
* @param p2 Second Point of the selected rectangle
*/
private void updateSelection(Projection proj, SVGPoint p1, SVGPoint p2) {
DBIDSelection selContext = context.getSelection();
ModifiableDBIDs selection;
if(selContext != null) {
selection = DBIDUtil.newHashSet(selContext.getSelectedIds());
}
else {
selection = DBIDUtil.newHashSet();
}
DoubleDoublePair[] ranges;
if(p1 == null || p2 == null) {
logger.warning("no rect selected: p1: " + p1 + " p2: " + p2);
}
else {
double x1 = Math.min(p1.getX(), p2.getX());
double x2 = Math.max(p1.getX(), p2.getX());
double y1 = Math.max(p1.getY(), p2.getY());
double y2 = Math.min(p1.getY(), p2.getY());
int dim = proj.getInputDimensionality();
if(selContext instanceof RangeSelection) {
ranges = ((RangeSelection) selContext).getRanges();
}
else {
ranges = new DoubleDoublePair[dim];
}
updateSelectionRectKoordinates(x1, x2, y1, y2, ranges);
selection.clear();
boolean idIn = true;
for(DBID id : relation.iterDBIDs()) {
NumberVector<?, ?> dbTupel = relation.get(id);
idIn = true;
for(int i = 0; i < dim; i++) {
if(ranges != null && ranges[i] != null) {
if(dbTupel.doubleValue(i + 1) < ranges[i].first || dbTupel.doubleValue(i + 1) > ranges[i].second) {
idIn = false;
break;
}
}
}
if(idIn == true) {
selection.add(id);
}
}
context.setSelection(new RangeSelection(selection, ranges));
}
}
/**
* Adds the required CSS-Classes
*
* @param svgp SVG-Plot
*/
protected void addCSSClasses(SVGPlot svgp) {
// Class for the range marking
if(!svgp.getCSSClassManager().contains(CSS_RANGEMARKER)) {
final CSSClass rcls = new CSSClass(this, CSS_RANGEMARKER);
final StyleLibrary style = context.getStyleLibrary();
rcls.setStatement(SVGConstants.CSS_FILL_PROPERTY, style.getColor(StyleLibrary.SELECTION_ACTIVE));
rcls.setStatement(SVGConstants.CSS_OPACITY_PROPERTY, style.getOpacity(StyleLibrary.SELECTION_ACTIVE));
svgp.addCSSClassOrLogError(rcls);
}
}
/**
* Factory for tool visualizations for selecting ranges and the inclosed
* objects
*
* @author Robert Rödler
*
* @apiviz.stereotype factory
* @apiviz.uses SelectionToolAxisRangeVisualization oneway - - «create»
*/
public static class Factory extends AbstractVisFactory {
/**
* Constructor, adhering to
* {@link de.lmu.ifi.dbs.elki.utilities.optionhandling.Parameterizable}
*/
public Factory() {
super();
}
@Override
public Visualization makeVisualization(VisualizationTask task) {
return new SelectionToolAxisRangeVisualization(task);
}
@Override
public void processNewResult(HierarchicalResult baseResult, Result result) {
final ArrayList<SelectionResult> selectionResults = ResultUtil.filterResults(result, SelectionResult.class);
for(SelectionResult selres : selectionResults) {
IterableIterator<ParallelPlotProjector<?>> ps = ResultUtil.filteredResults(baseResult, ParallelPlotProjector.class);
for(ParallelPlotProjector<?> p : ps) {
final VisualizationTask task = new VisualizationTask(NAME, selres, p.getRelation(), this);
task.put(VisualizationTask.META_LEVEL, VisualizationTask.LEVEL_INTERACTIVE);
task.put(VisualizationTask.META_TOOL, true);
task.put(VisualizationTask.META_NOTHUMB, true);
task.put(VisualizationTask.META_NOEXPORT, true);
task.put(VisualizationTask.META_VISIBLE_DEFAULT, false);
baseResult.getHierarchy().add(selres, task);
baseResult.getHierarchy().add(p, task);
}
}
}
}
}