svn-gvsig-desktop / trunk / org.gvsig.desktop / org.gvsig.desktop.compat.cdc / org.gvsig.fmap.mapcontext / org.gvsig.fmap.mapcontext.api / src / main / java / org / gvsig / fmap / mapcontext / ViewPort.java @ 47799
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/**
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* gvSIG. Desktop Geographic Information System.
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*
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* Copyright (C) 2007-2013 gvSIG Association.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 3
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
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* MA 02110-1301, USA.
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*
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* For any additional information, do not hesitate to contact us
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* at info AT gvsig.com, or visit our website www.gvsig.com.
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*/
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package org.gvsig.fmap.mapcontext; |
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import java.awt.Color; |
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import java.awt.Dimension; |
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import java.awt.Toolkit; |
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import java.awt.geom.AffineTransform; |
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import java.awt.geom.NoninvertibleTransformException; |
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import java.awt.geom.Point2D; |
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import java.awt.geom.Rectangle2D; |
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import java.lang.ref.WeakReference; |
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import java.util.ArrayList; |
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import java.util.Collection; |
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import java.util.Collections; |
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import java.util.ConcurrentModificationException; |
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import java.util.List; |
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import java.util.Objects; |
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import org.cresques.cts.GeoCalc; |
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import org.cresques.cts.IProjection; |
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import org.gvsig.compat.CompatLocator; |
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import org.slf4j.Logger; |
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import org.slf4j.LoggerFactory; |
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import org.gvsig.fmap.geom.Geometry.SUBTYPES; |
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import org.gvsig.fmap.geom.Geometry; |
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import org.gvsig.fmap.geom.GeometryLocator; |
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import org.gvsig.fmap.geom.GeometryManager; |
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import org.gvsig.fmap.geom.exception.CreateEnvelopeException; |
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import org.gvsig.fmap.geom.exception.CreateGeometryException; |
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import org.gvsig.fmap.geom.primitive.Envelope; |
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import org.gvsig.fmap.geom.primitive.Point; |
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import static org.gvsig.fmap.mapcontext.MapContext.DEFAULT_SELECTION_COLOR; |
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import org.gvsig.fmap.mapcontext.events.ColorEvent; |
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import org.gvsig.fmap.mapcontext.events.ExtentEvent; |
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import org.gvsig.fmap.mapcontext.events.ProjectionEvent; |
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import org.gvsig.fmap.mapcontext.events.listeners.ViewPortListener; |
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import org.gvsig.fmap.mapcontext.events.listeners.ViewPortListenerEx1; |
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import org.gvsig.timesupport.Time; |
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import org.gvsig.tools.ToolsLocator; |
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import org.gvsig.tools.dynobject.DynStruct; |
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import org.gvsig.tools.lang.Cloneable; |
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import org.gvsig.tools.persistence.PersistenceManager; |
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import org.gvsig.tools.persistence.Persistent; |
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import org.gvsig.tools.persistence.PersistentState; |
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import org.gvsig.tools.persistence.exception.PersistenceException; |
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import org.gvsig.tools.util.Callable; |
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/**
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* <p>
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* <code>ViewPort</code> class represents the logic needed to transform a
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* rectangular area of a map to the available area in screen to display it.
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* </p>
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* <p>
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* Includes an affine transformation, between the rectangular area selected of
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* the external map, in its own <i>map coordinates</i>, to the rectangular area
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* available of a view in <i>screen coordinates</i>.
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* </p>
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* <p>
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* Elements:
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* <ul>
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* <li><i>extent</i>: the area selected of the map, in <i>map coordinates</i>.
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* <li><i>imageSize</i>: width and height in pixels (<i>screen coordinates</i>)
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* of the area available in screen to display the area selected of the map.
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* <li><i>adjustedExtent</i>: the area selected must be an scale of
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* <i>imageSize</i>.<br>
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* This implies adapt the extent, preserving and centering it, and adding around
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* the needed area to fill all the image size. That added area will be extracted
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* from the original map, wherever exists, and filled with the background color
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* wherever not.
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* <li><i>scale</i>: the scale between the adjusted extent and the image size.
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* <li><i>backColor</i>: the default background color in the view, if there is
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* no map.
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* <li><i>trans</i>: the affine transformation.
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* <li><i>proj</i>: map projection used in this view.
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* <li><i>distanceUnits</i>: distance measurement units, of data in screen.
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* <li><i>mapUnits</i>: measurement units, of data in map.
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* <li><i>extents</i>: an {@link ExtentHistory ExtentHistory} with the last
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* previous extents.
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* <li><i>offset</i>: position in pixels of the available rectangular area,
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* where start drawing the map.
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* <li><i>dist1pixel</i>: the distance in <i>world coordinates</i> equivalent to
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* 1 pixel in the view with the current extent.
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* <li><i>dist3pixel</i>: the distance in <i>world coordinates</i> equivalent to
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* 3 pixels in the view with the current extent.
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* <li><i>listeners</i>: list with the {@link ViewPortListener ViewPortListener}
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* registered.
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* </ul>
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* </p>
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*
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* @author Vicente Caballero Navarro
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*/
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public class ViewPort implements Persistent, Cloneable { |
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private static final String FIELD_DISTANCE_AREA = "distanceArea"; |
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private static final String FIELD_IMAGE_SIZE = "imageSize"; |
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private static final String FIELD_PROJ = "proj"; |
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private static final String FIELD_OFFSET = "offset"; |
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private static final String FIELD_MAP_UNITS = "mapUnits"; |
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private static final String FIELD_EXTENT = "extent"; |
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private static final String FIELD_EXTENTS = "extents"; |
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private static final String FIELD_DISTANCE_UNITS = "distanceUnits"; |
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private static final String FIELD_DIST3PIXEL = "dist3pixel"; |
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private static final String FIELD_DIST1PIXEL = "dist1pixel"; |
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private static final String FIELD_CLIP = "clip"; |
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private static final String FIELD_BACK_COLOR = "backColor"; |
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private static final String FIELD_ADJUSTED_EXTENT = "adjustedExtent"; |
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private static final GeometryManager geomManager = GeometryLocator |
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.getGeometryManager(); |
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private static final Logger logger = LoggerFactory.getLogger(ViewPort.class); |
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/**
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* <p>
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* Area selected by user using some tool.
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* </p>
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* <p>
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* When the zoom changes (for instance when using the zoom in or zoom out
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* tools, but also zooming to a selected feature or shape) the extent that
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* covers that area is the value returned by this method. It is not the actual
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* area shown in the view because it does not care about the aspect ratio of
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* the available area. However, any part of the real world contained in this
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* extent is shown in the view.
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* </p>
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* <p>
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* Probably this is not what you are looking for. If you are looking for the
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* complete extent currently shown, you must use
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* {@linkplain #getAdjustedExtent()} method which returns the extent that
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* contains this one but regarding the current view's aspect ratio.
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* </p>
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*
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* @see #getExtent()
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* @see #setEnvelope(Envelope)
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*/
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protected Rectangle2D extent; |
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protected Time time; |
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/**
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* <p>
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* Location and dimensions of the extent adjusted to the image size.
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* </p>
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*
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* @see #getAdjustedExtent()
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*/
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protected Rectangle2D adjustedExtent; |
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/**
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* Draw version of the context. It's used for know when de componend has
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* changed any visualization property
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*
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* @see getDrawVersion
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* @see updateDrawVersion
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*/
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private long drawVersion = 0L; |
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/**
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* <p>
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* History with the last extents of the view.
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* </p>
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*
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* @see #setPreviousExtent()
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* @see #getExtents()
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*/
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protected ExtentHistory extentsHistory = new ExtentHistory(); |
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/**
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* <p>
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* Size in <i>screen coordinates</i> of the rectangle where the image is
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* displayed.
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* </p>
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* <p>
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* Used by {@linkplain #calculateAffineTransform()} to calculate:<br>
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* <ul>
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* <li>The new {@link #scale scale} .
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* <li>The new {@link #adjustedExtent adjustableExtent} .
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* <li>The new {@link #trans trans} .
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* <li>The new real world coordinates equivalent to 1 pixel (
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* {@link #dist1pixel dist1pixel}) .
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* <li>The new real world coordinates equivalent to 3 pixels (
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* {@link #dist3pixel dist3pixel}) .
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* </ul>
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* </p>
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*
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* @see #getImageSize()
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* @see #getImageHeight()
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* @see #getImageWidth()
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* @see #setImageSize(Dimension)
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*/
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private Dimension imageSize; |
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/**
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* <p>
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* the affine transformation between the {@link #extent extent} in <i>map 2D
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* coordinates</i> to the image area in the screen, in <i>screen 2D
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* coordinates</i> (pixels).
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* </p>
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*
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* @see AffineTransform
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* @see #getAffineTransform()
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* @see #setAffineTransform(AffineTransform)
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* @see #calculateAffineTransform()
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*/
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private AffineTransform trans = new AffineTransform(); |
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/**
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* <p>
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* Measurement unit used for measuring distances and displaying information.
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* </p>
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*
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* @see #getDistanceUnits()
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* @see #setDistanceUnits(int)
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*/
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private int distanceUnits = 1; |
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/**
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* <p>
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* Measurement unit used for measuring areas and displaying information.
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* </p>
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*
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* @see #getDistanceArea()
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* @see #setDistanceArea(int)
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*/
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private int distanceArea = 1; |
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/**
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* <p>
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* Measurement unit used by this view port for the map.
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* </p>
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*
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* @see #getMapUnits()
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* @see #setMapUnits(int)
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*/
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private int mapUnits = 1; |
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/**
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* <p>
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* Array with the {@link ViewPortListener ViewPortListener}s registered to
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* this view port.
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* </p>
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*
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* @see #addViewPortListener(ViewPortListener)
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* @see #removeViewPortListener(ViewPortListener)
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*/
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private List<ViewPortListener> listeners = new ArrayList<>(); |
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/**
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* <p>
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* The offset is the position where start drawing the map.
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* </p>
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* <p>
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* The offset of a <a href="http://www.gvsig.gva.es/">gvSIG</a>'s <i>View</i>
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* is always (0, 0) because the drawing area fits with the full window area.
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* But in a <a href="http://www.gvsig.gva.es/">gvSIG</a>'s <i>Layout</i> it's
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* up to the place where the <code>FFrameView</code> is located.
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* </p>
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*
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* @see #getOffset()
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* @see #setOffset(Point2D)
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*/
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private Point2D offset = new Point2D.Double(0, 0); |
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/**
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* <p>
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* Clipping area.
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* </p>
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*/
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// private Rectangle2D clip;
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/**
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* <p>
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* Background color of this view.
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* </p>
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*
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* @see #getBackColor()
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* @see #setBackColor(Color)
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*/
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private Color backColor = null; // Color.WHITE; |
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/**
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* <p>
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* Selection color of this view.
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* </p>
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*
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* @see #getSelectionColor()
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* @see #setSelectionColor(Color)
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*/
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private Color selectionColor = MapContext.DEFAULT_SELECTION_COLOR; |
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/**
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* <p>
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* Information about the map projection used in this view.
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* </p>
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*
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* @see #getProjection()
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* @see #setProjection(IProjection)
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*/
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private IProjection proj;
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/**
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* <p>
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* Represents the distance in <i>world coordinates</i> equivalent to 1 pixel
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* in the view with the current extent.
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* </p>
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*
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* @see #getDist1pixel()
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* @see #setDist1pixel(double)
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*/
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private double dist1pixel; |
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/**
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* <p>
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* Represents the distance in <i>world coordinates</i> equivalent to 3 pixels
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* in the view with the current extent.
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* </p>
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*
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* @see #getDist3pixel()
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* @see #setDist3pixel(double)
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*/
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private double dist3pixel; |
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/**
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* <p>
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* Ratio between the size of <code>imageSize</code> and <code>extent</code>: <br>
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* <i>
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*
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* <pre>
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* min{(imageSize.getHeight()/extent.getHeight(), imageSize.getWidth()/extent.getWidth())}
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* </pre>
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*
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* </i>
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* </p>
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*/
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private double scale; |
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/**
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* <p>
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* Clipping area.
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* </p>
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*
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* @see #setClipRect(Rectangle2D)
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*/
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private Rectangle2D cliprect; |
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/**
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* <p>
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* Enables or disables the <i>"adjustable extent"</i> mode.
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* </p>
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* <p>
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* When calculates the affine transform, if
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* <ul>
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* <li><i>enabled</i>: the new <code>adjustedExtent</code> will have the (X,
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* Y) coordinates of the <code>extent</code> and an area that will be an scale
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* of the image size. That area will have different height or width (not both)
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* of the extent according the least ratio (height or width) in
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*
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* <pre>
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* image.size/extent.size"
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* </pre>.
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* <li><i>disabled</i>: the new <code>adjustedExtent</code> will be like
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* <code>extent</code>.
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* </ul>
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* </p>
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*
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* @see #setAdjustable(boolean)
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*/
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private boolean adjustableExtent = true; |
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/**
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* <p>
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* ViewPort resolution in <i>dots-per-inch</i>. Useful to calculate the
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* geographic scale of the view.
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* </p>
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*
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* @see Toolkit#getScreenResolution()
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* @see MapContext#getScaleView()
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*/
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private Double dpi = null; |
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public ViewPort() {
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} |
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/**
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* <p>
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* Creates a new view port with the information of the projection in
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* <code>proj</code> argument, and default configuration:
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* </p>
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* <p>
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* <ul>
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* <li><i><code>distanceUnits</code></i> = meters
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* <li><i><code>mapUnits</code></i> = meters
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* <li><i><code>backColor</code></i> = <i>undefined</i>
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* <li><i><code>offset</code></i> = <code>new Point2D.Double(0, 0);</code>
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* </ul>
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* </p>
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*
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* @param proj information of the projection for this view port
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*/
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public ViewPort(IProjection proj) {
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// Por defecto
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this.proj = proj;
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} |
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/**
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* <p>
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* Changes the status of the <i>"adjustable extent"</i> option to enabled or
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* disabled.
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* </p>
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* <p>
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* If view port isn't adjustable, won't bear in mind the aspect ratio of the
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* available rectangular area to calculate the affine transform from the
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* original map in real coordinates. (Won't scale the image to adapt it to the
|
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* available rectangular area).
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* </p>
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*
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* @param boolean the boolean to be set
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*/
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public void setAdjustable(boolean adjustable) { |
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if (adjustable == adjustableExtent) {
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return;
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} |
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adjustableExtent = adjustable; |
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this.updateDrawVersion();
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} |
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private Collection<ViewPortListener> getListeners() { |
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List<ViewPortListener> ll = Collections.unmodifiableList(listeners); |
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return ll;
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} |
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|
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/**
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* <p>
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* Appends the specified {@link ViewPortListener ViewPortListener} listener if
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* weren't.
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* </p>
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*
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* @param listener the listener to add
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* @return <code>true</code> if has been added successfully
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* @see #removeViewPortListener(ViewPortListener)
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*/
|
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public boolean addViewPortListener(ViewPortListener listener) { |
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if (listener == null) { |
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return false; |
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} |
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if( this.listeners.contains(listener) ) { |
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return false; |
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} |
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this.listeners.add(listener);
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return true; |
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} |
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|
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/**
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* <p>
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* Removes the specified {@link ViewPortListener ViewPortListener} listener,
|
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* if existed.
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* </p>
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*
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* @param listener the listener to remove
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495 |
* @return <code>true</code> if the contained the specified listener.
|
496 |
* @see #addViewPortListener(ViewPortListener)
|
497 |
*/
|
498 |
public boolean removeViewPortListener(ViewPortListener listener) { |
499 |
if (listener == null) { |
500 |
return false; |
501 |
} |
502 |
return this.listeners.remove(listener); |
503 |
} |
504 |
|
505 |
/**
|
506 |
* <p>
|
507 |
* Converts and returns the distance <code>d</code>, that is in <i>map
|
508 |
* coordinates</i> to <i>screen coordinates</i> using a <i>delta transform</i>
|
509 |
* with the transformation affine information in the {@link #trans #trans}
|
510 |
* attribute.
|
511 |
* </p>
|
512 |
*
|
513 |
* @param d distance in <i>map coordinates</i>
|
514 |
* @return distance equivalent in <i>screen coordinates</i>
|
515 |
* @see #toMapDistance(int)
|
516 |
* @see AffineTransform#deltaTransform(Point2D, Point2D)S
|
517 |
*/
|
518 |
public int fromMapDistance(double d) { |
519 |
Point2D.Double pWorld = new Point2D.Double(1, 1); |
520 |
Point2D.Double pScreen = new Point2D.Double(); |
521 |
|
522 |
try {
|
523 |
trans.deltaTransform(pWorld, pScreen); |
524 |
} |
525 |
catch (Exception e) { |
526 |
System.err.print(e.getMessage());
|
527 |
} |
528 |
|
529 |
return (int) (d * pScreen.x); |
530 |
} |
531 |
|
532 |
/**
|
533 |
* <p>
|
534 |
* Converts and returns the 2D point <code>(x,y)</code>, that is in <i>map
|
535 |
* coordinates</i> to <i>screen coordinates</i> (pixels) using the affine
|
536 |
* transformation in the {@link #trans #trans} attribute.
|
537 |
* </p>
|
538 |
*
|
539 |
* @param x the <code>x</code> <i>map coordinate</i> of a 2D point
|
540 |
* @param y the <code>y</code> <i>map coordinate</i> of a 2D point
|
541 |
* @return 2D point equivalent in <i>screen coordinates</i> (pixels)
|
542 |
* @see #fromMapPoint(Point2D)
|
543 |
* @see AffineTransform#transform(Point2D, Point2D)
|
544 |
*/
|
545 |
public Point2D fromMapPoint(double x, double y) { |
546 |
Point2D.Double pWorld = new Point2D.Double(x, y); |
547 |
Point2D.Double pScreen = new Point2D.Double(); |
548 |
|
549 |
try {
|
550 |
trans.transform(pWorld, pScreen); |
551 |
} |
552 |
catch (Exception e) { |
553 |
System.err.print(e.getMessage());
|
554 |
} |
555 |
|
556 |
return pScreen;
|
557 |
} |
558 |
|
559 |
/**
|
560 |
* <p>
|
561 |
* Converts and returns the 2D point argument, that is in <i>map
|
562 |
* coordinates</i> to <i>screen coordinates</i> (pixels) using the affine
|
563 |
* transformation in the {@link #trans #trans} attribute.
|
564 |
* </p>
|
565 |
*
|
566 |
* @param point the 2D point in <i>map coordinates</i>
|
567 |
* @return 2D point equivalent in <i>screen coordinates</i> (pixels)
|
568 |
* @see #toMapPoint(Point2D)
|
569 |
* @see #fromMapPoint(double, double)
|
570 |
*/
|
571 |
public Point2D fromMapPoint(Point2D point) { |
572 |
return fromMapPoint(point.getX(), point.getY());
|
573 |
} |
574 |
|
575 |
/**
|
576 |
* <p>
|
577 |
* Converts and returns the 2D point <code>(x,y)</code>, that is in <i>screen
|
578 |
* coordinates</i> (pixels) to <i>map coordinates</i> using the affine
|
579 |
* transformation in the {@link #trans #trans} attribute.
|
580 |
* </p>
|
581 |
*
|
582 |
* @param x the <code>x</code> <i>screen coordinate</i> of a 2D point
|
583 |
* @param y the <code>y</code> <i>screen coordinate</i> of a 2D point
|
584 |
* @return 2D point equivalent in <i>map coordinates</i>
|
585 |
* @see #toMapPoint(Point2D)
|
586 |
* @see #fromMapPoint(double, double)
|
587 |
* @deprecated use {@link #convertToMapPoint(int, int)}
|
588 |
*/
|
589 |
public Point2D toMapPoint(int x, int y) { |
590 |
Point2D pScreen = new Point2D.Double(x, y); |
591 |
|
592 |
return toMapPoint(pScreen);
|
593 |
} |
594 |
|
595 |
/**
|
596 |
* <p>
|
597 |
* Converts and returns the {@link Rectangle2D Rectangle2D}, that is in
|
598 |
* <i>screen coordinates</i> (pixels) to <i>map coordinates</i> using
|
599 |
* {@linkplain #toMapDistance(int)}, and {@linkplain #toMapPoint(int, int)}.
|
600 |
* </p>
|
601 |
*
|
602 |
* @param r the 2D rectangle in <i>screen coordinates</i> (pixels)
|
603 |
* @return 2D rectangle equivalent in <i>map coordinates</i>
|
604 |
* @see #fromMapRectangle(Rectangle2D)
|
605 |
* @see #toMapDistance(int)
|
606 |
* @see #toMapPoint(int, int)
|
607 |
*/
|
608 |
public Rectangle2D toMapRectangle(Rectangle2D r) { |
609 |
Rectangle2D rect = new Rectangle2D.Double(); |
610 |
Point2D p1 = toMapPoint((int) r.getX(), (int) r.getY()); |
611 |
Point2D p2 = toMapPoint((int) r.getMaxX(), (int) r.getMaxY()); |
612 |
rect.setFrameFromDiagonal(p1, p2); |
613 |
return rect;
|
614 |
} |
615 |
|
616 |
/**
|
617 |
* <p>
|
618 |
* Converts and returns the distance <code>d</code>, that is in <i>screen
|
619 |
* coordinates</i> to <i>map coordinates</i> using the transformation affine
|
620 |
* information in the {@link #trans #trans} attribute.
|
621 |
* </p>
|
622 |
*
|
623 |
* @param d distance in pixels
|
624 |
* @return distance equivalent in <i>map coordinates</i>
|
625 |
* @see #fromMapDistance(double)
|
626 |
* @see AffineTransform
|
627 |
*/
|
628 |
public double toMapDistance(int d) { |
629 |
double dist = d / trans.getScaleX();
|
630 |
|
631 |
return dist;
|
632 |
} |
633 |
|
634 |
/**
|
635 |
* <p>
|
636 |
* Converts and returns the 2D point argument, that is in <i>screen
|
637 |
* coordinates</i> (pixels) to <i>map coordinates</i> using the inverse affine
|
638 |
* transformation of the {@link #trans #trans} attribute.
|
639 |
* </p>
|
640 |
*
|
641 |
* @param pScreen the 2D point in <i>screen coordinates</i> (pixels)
|
642 |
* @return 2D point equivalent in <i>map coordinates</i>
|
643 |
* @see #toMapPoint(int, int)
|
644 |
* @see AffineTransform#createInverse()
|
645 |
* @see AffineTransform#transform(Point2D, Point2D)
|
646 |
* @deprecated use {@link #convertToMapPoint(Point2D)}
|
647 |
*/
|
648 |
public Point2D toMapPoint(Point2D pScreen) { |
649 |
Point2D.Double pWorld = new Point2D.Double(); |
650 |
AffineTransform at;
|
651 |
|
652 |
if( pScreen == null ) { |
653 |
return null; |
654 |
} |
655 |
try {
|
656 |
at = trans.createInverse(); |
657 |
at.transform(pScreen, pWorld); |
658 |
} |
659 |
catch (NoninvertibleTransformException e) { |
660 |
throw new RuntimeException("Non invertible transform Exception", e); |
661 |
} |
662 |
|
663 |
return pWorld;
|
664 |
} |
665 |
|
666 |
public Point convertToMapPoint(Point2D pScreen) { |
667 |
Point2D p = toMapPoint(pScreen);
|
668 |
try {
|
669 |
Point point = geomManager.createPoint(
|
670 |
p.getX(), |
671 |
p.getY(), |
672 |
Geometry.SUBTYPES.GEOM2D |
673 |
); |
674 |
point.setProjection(this.getProjection());
|
675 |
return point;
|
676 |
} |
677 |
catch (CreateGeometryException e) {
|
678 |
// FIXME: Use a most especific exception.
|
679 |
throw new RuntimeException(e); |
680 |
} |
681 |
} |
682 |
|
683 |
public Point convertToMapPoint(int x, int y) { |
684 |
Point2D pScreen = new Point2D.Double(x, y); |
685 |
|
686 |
return convertToMapPoint(pScreen);
|
687 |
} |
688 |
|
689 |
/**
|
690 |
* <p>
|
691 |
* Returns the real distance (in <i>world coordinates</i>) at the graphic
|
692 |
* layers of two 2D points (in <i>map coordinates</i>) of the plane where is
|
693 |
* selected the <i>extent</i>.
|
694 |
* </p>
|
695 |
* <p>
|
696 |
* If the projection of this view is UTM, considers the Earth curvature.
|
697 |
* </p>
|
698 |
*
|
699 |
* @param pt1 a 2D point in <i>map coordinates</i>
|
700 |
* @param pt2 another 2D point in <i>map coordinates</i>
|
701 |
* @return the distance in meters between the two points 2D
|
702 |
* @see GeoCalcImpl#distanceVincenty(Point2D, Point2D)
|
703 |
*/
|
704 |
public double distanceWorld(Point2D pt1, Point2D pt2) { |
705 |
|
706 |
double dist = 0; |
707 |
if (proj.isProjected()) {
|
708 |
dist = pt1.distance(pt2); |
709 |
dist = dist * MapContext.getDistanceTrans2Meter()[getMapUnits()]; |
710 |
} |
711 |
else {
|
712 |
GeoCalc geocalc = new GeoCalc(proj);
|
713 |
dist = geocalc.distanceVincenty(pt1, pt2); |
714 |
} |
715 |
return dist;
|
716 |
} |
717 |
|
718 |
/**
|
719 |
* <p>
|
720 |
* Sets as extent and adjusted extent of this view port, the previous.
|
721 |
* Recalculating its parameters.
|
722 |
* </p>
|
723 |
*
|
724 |
* @see #getExtents()
|
725 |
* @see #calculateAffineTransform()
|
726 |
* @deprecated use {@link ViewPort#setPreviousEnvelope()}
|
727 |
*/
|
728 |
public void setPreviousExtent() { |
729 |
setPreviousEnvelope(); |
730 |
} |
731 |
|
732 |
/**
|
733 |
* <p>
|
734 |
* Sets as envelope and adjusted envelope of this view port, the previous.
|
735 |
* Recalculating its parameters.
|
736 |
* Stores the current extent in the next extents of the history.
|
737 |
* </p>
|
738 |
*
|
739 |
* @see #getExtents()
|
740 |
* @see #calculateAffineTransform()
|
741 |
*/
|
742 |
public void setPreviousEnvelope() { |
743 |
this.updateDrawVersion();
|
744 |
|
745 |
// extentsHistory.putNext(extent);
|
746 |
// extent = extentsHistory.removePrev();
|
747 |
extent = extentsHistory.setPreviousExtent(); |
748 |
|
749 |
// Calcula la transformaci?n af?n
|
750 |
calculateAffineTransform(); |
751 |
|
752 |
// Lanzamos los eventos de extent cambiado
|
753 |
callExtentChanged(getAdjustedExtent()); |
754 |
} |
755 |
|
756 |
/**
|
757 |
* <p>
|
758 |
* Sets as envelope and adjusted envelope of this view port, the next.
|
759 |
* Recalculating its parameters.
|
760 |
* Stores the current extent in the previous extents of the history.
|
761 |
* </p>
|
762 |
*
|
763 |
* @see #getExtents()
|
764 |
* @see #calculateAffineTransform()
|
765 |
*/
|
766 |
public void setNextEnvelope() { |
767 |
this.updateDrawVersion();
|
768 |
|
769 |
extent = extentsHistory.setNextExtent(); |
770 |
|
771 |
// Calcula la transformaci?n af?n
|
772 |
calculateAffineTransform(); |
773 |
|
774 |
// Lanzamos los eventos de extent cambiado
|
775 |
callExtentChanged(getAdjustedExtent()); |
776 |
} |
777 |
|
778 |
/**
|
779 |
* <p>
|
780 |
* Gets the area selected by user using some tool.
|
781 |
* </p>
|
782 |
* <p>
|
783 |
* When the zoom changes (for instance using the <i>zoom in</i> or <i>zoom
|
784 |
* out</i> tools, but also zooming to a selected feature or shape) the extent
|
785 |
* that covers that area is the value returned by this method. It is not the
|
786 |
* actual area shown because it doesn't care about the aspect ratio of the
|
787 |
* image size of the view. However, any part of the real world contained in
|
788 |
* this extent is shown in the view.
|
789 |
* </p>
|
790 |
* <p>
|
791 |
* If you are looking for the complete extent currently shown, you must use
|
792 |
* the {@linkplain #getAdjustedExtent()} method.
|
793 |
* </p>
|
794 |
*
|
795 |
* @return the current extent
|
796 |
* @see #setEnvelope(Envelope)
|
797 |
* @see #getAdjustedExtent()
|
798 |
* @see #setPreviousExtent()
|
799 |
* @see #getExtents()
|
800 |
* @deprecated use {@link ViewPort#getEnvelope()}
|
801 |
*/
|
802 |
public Rectangle2D getExtent() { |
803 |
return extent;
|
804 |
} |
805 |
|
806 |
/**
|
807 |
* <p>
|
808 |
* Gets the envelope selected by user using some tool.
|
809 |
* </p>
|
810 |
* <p>
|
811 |
* When the zoom changes (for instance using the <i>zoom in</i> or <i>zoom
|
812 |
* out</i> tools, but also zooming to a selected feature or shape) the
|
813 |
* envelope that covers that area is the value returned by this method. It is
|
814 |
* not the actual envelope shown because it doesn't care about the aspect
|
815 |
* ratio of the image size of the view. However, any part of the real world
|
816 |
* contained in this envelope is shown in the view.
|
817 |
* </p>
|
818 |
* <p>
|
819 |
* If you are looking for the complete extent currently shown, you must use
|
820 |
* the {@linkplain #getAdjustedEnvelope()} method.
|
821 |
* </p>
|
822 |
*
|
823 |
* @return the current envelope
|
824 |
* @see #setEnvelope(Envelope)
|
825 |
* @see #getAdjustedEnvelope()
|
826 |
* @see #setPreviousEnvelope()
|
827 |
* @see #getEnvelopes()
|
828 |
*/
|
829 |
public Envelope getEnvelope() {
|
830 |
if (this.extent == null) { |
831 |
return null; |
832 |
} |
833 |
try {
|
834 |
Envelope envelope = geomManager.createEnvelope( |
835 |
extent.getMinX(), |
836 |
extent.getMinY(), |
837 |
extent.getMaxX(), |
838 |
extent.getMaxY(), |
839 |
SUBTYPES.GEOM2D |
840 |
); |
841 |
envelope.setProjection(this.proj);
|
842 |
return envelope;
|
843 |
// This class has to use Envelope instead of Rectangle2D. This catch
|
844 |
// will disappear
|
845 |
} catch (CreateEnvelopeException e) {
|
846 |
logger.warn("Error creating the ViewPort envelope.", e);
|
847 |
} |
848 |
return null; |
849 |
} |
850 |
|
851 |
/**
|
852 |
* <p>
|
853 |
* Changes the <i>extent</i> and <i>adjusted extent</i> of this view port:<br>
|
854 |
* <ul>
|
855 |
* <li>Stores the previous extent.
|
856 |
* <li>Calculates the new extent using <code>r</code>:
|
857 |
*
|
858 |
* <pre>
|
859 |
* extent = new Rectangle2D.Double(r.getMinX() - 0.1, r.getMinY() - 0.1,
|
860 |
* r.getWidth() + 0.2, r.getHeight() + 0.2);
|
861 |
* </pre>
|
862 |
* <li>Executes {@linkplain #calculateAffineTransform()}: getting the new
|
863 |
* scale, adjusted extent, affine transformation between map and screen
|
864 |
* coordinates, the real world coordinates equivalent to 1 pixel, and the real
|
865 |
* world coordinates equivalent to 3 pixels.
|
866 |
* <li>Notifies all {@link ViewPortListener ViewPortListener} registered that
|
867 |
* the extent has changed.
|
868 |
* </ul>
|
869 |
* </p>
|
870 |
*
|
871 |
* @param r the new extent
|
872 |
* @see #getExtent()
|
873 |
* @see #getExtents()
|
874 |
* @see #calculateAffineTransform()
|
875 |
* @see #setPreviousExtent()
|
876 |
* @see #clear()
|
877 |
*/
|
878 |
public void setEnvelope(Envelope r) { |
879 |
Rectangle2D newExtent = null; |
880 |
// Esto comprueba que el extent no es de anchura o altura = "0"
|
881 |
// y si es as? lo redimensiona.
|
882 |
if (r != null && !r.isEmpty() ) { |
883 |
if ((r.getMaximum(0) - r.getMinimum(0) == 0) |
884 |
|| (r.getMaximum(1) - r.getMinimum(1) == 0)) { |
885 |
newExtent = new Rectangle2D.Double(r.getMinimum(0) - 0.1, |
886 |
r.getMinimum(1) - 0.1, r.getMaximum(0) - r.getMinimum(0) + 0.2, |
887 |
r.getMaximum(1) - r.getMinimum(1) + 0.2); |
888 |
} |
889 |
else {
|
890 |
newExtent = new Rectangle2D.Double(r.getMinimum(0), r.getMinimum(1), |
891 |
Math.abs(r.getMaximum(0) - r.getMinimum(0)), Math.abs(r |
892 |
.getMaximum(1) - r.getMinimum(1))); |
893 |
} |
894 |
} |
895 |
|
896 |
if (this.extent != null && this.extent.equals(newExtent)) { |
897 |
return;
|
898 |
} |
899 |
|
900 |
this.updateDrawVersion();
|
901 |
this.extent = newExtent;
|
902 |
try {
|
903 |
calculateAffineTransform(); |
904 |
} catch(Exception ex) { |
905 |
this.extent = null; |
906 |
throw ex;
|
907 |
} |
908 |
extentsHistory.put(extent); |
909 |
|
910 |
|
911 |
// Lanzamos los eventos de extent cambiado
|
912 |
callExtentChanged(getAdjustedExtent()); |
913 |
} |
914 |
|
915 |
/**
|
916 |
* <p>
|
917 |
* Changes the <i>extent</i> and <i>adjusted extent</i> of this view port:<br>
|
918 |
* <ul>
|
919 |
* <li>Executes {@linkplain #calculateAffineTransform()}: getting the new
|
920 |
* scale, adjusted extent, affine transformation between map and screen
|
921 |
* coordinates, the real world coordinates equivalent to 1 pixel, and the real
|
922 |
* world coordinates equivalent to 3 pixels.
|
923 |
* <li>Notifies to all {@link ViewPortListener ViewPortListener} registered
|
924 |
* that the extent has changed.
|
925 |
* </ul>
|
926 |
* </p>
|
927 |
*
|
928 |
* @see #setEnvelope(Envelope)
|
929 |
* @see #calculateAffineTransform()
|
930 |
*/
|
931 |
public void refreshExtent() { |
932 |
//Por compatibilidad con versiones anteriores a la introducci?n de las lista de zooms siguientes
|
933 |
if (extentsHistory.getCurrent() == null) { |
934 |
extentsHistory.put(extent); |
935 |
} else {
|
936 |
extent = extentsHistory.getCurrent(); |
937 |
} |
938 |
|
939 |
// Calcula la transformaci?n af?n
|
940 |
calculateAffineTransform(); |
941 |
|
942 |
// Lanzamos los eventos de extent cambiado
|
943 |
callExtentChanged(getAdjustedExtent()); |
944 |
} |
945 |
|
946 |
/**
|
947 |
* <p>
|
948 |
* Calculates and returns using the current projection of this view port, the
|
949 |
* scale that is the extent in <i>screen coordinates</i> from the image in
|
950 |
* <i>map coordinates</i>.
|
951 |
* </p>
|
952 |
*
|
953 |
* @return the scale <i>extent / image size</i> projected by this view port
|
954 |
* @deprecated since 07/09/07, use {@linkplain MapContext#getScaleView()}
|
955 |
*/
|
956 |
private double getScale() { |
957 |
|
958 |
double[] trans2Meter = MapContext.getDistanceTrans2Meter(); |
959 |
if (proj == null) { |
960 |
double wmeters = ((getImageSize().width / this.getDPI()) * 0.0254); |
961 |
return (long) ((trans2Meter[getMapUnits()] * getAdjustedEnvelope() |
962 |
.getLength(0)) / wmeters);
|
963 |
} |
964 |
else {
|
965 |
return Math.round(proj.getScale(getAdjustedEnvelope().getMinimum(0) |
966 |
* trans2Meter[getMapUnits()], getAdjustedEnvelope().getMaximum(0)
|
967 |
* trans2Meter[getMapUnits()], getImageSize().width, this.getDPI()));
|
968 |
} |
969 |
|
970 |
/*
|
971 |
* return proj.getScale(extent.getMinX(), extent.getMaxX(), imageSize.width,
|
972 |
* dpi);
|
973 |
*/
|
974 |
} |
975 |
|
976 |
/**
|
977 |
* <p>
|
978 |
* Affine transformation between <i>map 2D coordinates</i> to <i>screen 2D
|
979 |
* coordinates</i> (pixels), preserving the "straightness" and "parallelism"
|
980 |
* of the lines.
|
981 |
* </p>
|
982 |
*
|
983 |
* @return the affine transformation
|
984 |
* @see #setAffineTransform(AffineTransform)
|
985 |
* @see #calculateAffineTransform()
|
986 |
*/
|
987 |
public AffineTransform getAffineTransform() { |
988 |
return trans;
|
989 |
} |
990 |
|
991 |
/**
|
992 |
* <p>
|
993 |
* Returns the size of the image projected.
|
994 |
* </p>
|
995 |
*
|
996 |
* @return the image size
|
997 |
* @see #setImageSize(Dimension)
|
998 |
* @see #getImageHeight()
|
999 |
* @see #getImageWidth()
|
1000 |
*/
|
1001 |
public Dimension getImageSize() { |
1002 |
return imageSize;
|
1003 |
} |
1004 |
|
1005 |
/**
|
1006 |
* <p>
|
1007 |
* Sets the size of the image projected, recalculating the parameters of this
|
1008 |
* view port.
|
1009 |
* </p>
|
1010 |
*
|
1011 |
* @param imageSize the image size
|
1012 |
* @see #getImageSize()
|
1013 |
* @see #calculateAffineTransform()
|
1014 |
*/
|
1015 |
public void setImageSize(Dimension imageSize) { |
1016 |
|
1017 |
if (this.imageSize == null || (!this.imageSize.equals(imageSize))) { |
1018 |
this.updateDrawVersion();
|
1019 |
this.imageSize = imageSize;
|
1020 |
calculateAffineTransform(); |
1021 |
} |
1022 |
} |
1023 |
|
1024 |
/**
|
1025 |
* <p>
|
1026 |
* Notifies to all view port listeners registered, that the adjusted extent of
|
1027 |
* this view port has changed.
|
1028 |
* </p>
|
1029 |
*
|
1030 |
* @param newRect the new adjusted extend
|
1031 |
* @see #refreshExtent()
|
1032 |
* @see #setEnvelope(Envelope)
|
1033 |
* @see #setPreviousExtent()
|
1034 |
* @see ExtentEvent
|
1035 |
* @see ViewPortListener
|
1036 |
*/
|
1037 |
protected void callExtentChanged(Envelope newRect) { |
1038 |
ExtentEvent ev = ExtentEvent.createExtentEvent(newRect); |
1039 |
|
1040 |
for (ViewPortListener listener : this.getListeners()) { |
1041 |
if (listener != null) { |
1042 |
listener.extentChanged(ev); |
1043 |
} |
1044 |
} |
1045 |
} |
1046 |
|
1047 |
/**
|
1048 |
* <p>
|
1049 |
* Notifies to all view port listeners registered, that the time of this view
|
1050 |
* port has changed.
|
1051 |
* </p>
|
1052 |
*
|
1053 |
* @param newTime the new time
|
1054 |
* @see #refreshExtent()
|
1055 |
* @see #setTime(Time)
|
1056 |
* @see ExtentEvent
|
1057 |
* @see ViewPortListener
|
1058 |
*/
|
1059 |
protected void callTimeChanged(Time newTime) { |
1060 |
ExtentEvent viewPortEvent = new ExtentEvent(newTime);
|
1061 |
|
1062 |
for (ViewPortListener listener : this.getListeners()) { |
1063 |
if (listener != null) { |
1064 |
listener.extentChanged(viewPortEvent); |
1065 |
} |
1066 |
} |
1067 |
} |
1068 |
|
1069 |
/**
|
1070 |
* <p>
|
1071 |
* Notifies to all view port listeners registered, that the background color
|
1072 |
* of this view port has changed.
|
1073 |
* </p>
|
1074 |
*
|
1075 |
* @param c the new background color
|
1076 |
* @see #setBackColor(Color)
|
1077 |
* @see ColorEvent
|
1078 |
* @see ViewPortListener
|
1079 |
*/
|
1080 |
private void callColorChanged(Color c) { |
1081 |
ColorEvent ce = ColorEvent.createColorEvent(c); |
1082 |
|
1083 |
for (ViewPortListener listener : this.getListeners()) { |
1084 |
if (listener != null) { |
1085 |
listener.backColorChanged(ce); |
1086 |
} |
1087 |
} |
1088 |
} |
1089 |
|
1090 |
/**
|
1091 |
* <p>
|
1092 |
* Notifies to all view port listeners registered, that the background color
|
1093 |
* of this view port has changed.
|
1094 |
* </p>
|
1095 |
*
|
1096 |
* @param c the new background color
|
1097 |
* @see #setBackColor(Color)
|
1098 |
* @see ColorEvent
|
1099 |
* @see ViewPortListener
|
1100 |
*/
|
1101 |
private void callSelectionColorChanged(Color c) { |
1102 |
ColorEvent ce = ColorEvent.createColorEvent(c); |
1103 |
|
1104 |
for (ViewPortListener listener : this.getListeners()) { |
1105 |
if (listener != null) { |
1106 |
if(listener instanceof ViewPortListenerEx1){ |
1107 |
((ViewPortListenerEx1)listener).selectionColorChanged(ce); |
1108 |
} |
1109 |
} |
1110 |
} |
1111 |
} |
1112 |
|
1113 |
/**
|
1114 |
* <p>
|
1115 |
* Notifies to all view port listeners registered, that the projection of this
|
1116 |
* view port has changed.
|
1117 |
* </p>
|
1118 |
*
|
1119 |
* @param projection the new projection
|
1120 |
* @see #setProjection(IProjection)
|
1121 |
* @see ProjectionEvent
|
1122 |
* @see ViewPortListener
|
1123 |
*/
|
1124 |
private void callProjectionChanged(IProjection projection) { |
1125 |
ProjectionEvent ev = ProjectionEvent.createProjectionEvent(projection); |
1126 |
|
1127 |
for (ViewPortListener listener : this.getListeners()) { |
1128 |
if (listener != null) { |
1129 |
listener.projectionChanged(ev); |
1130 |
} |
1131 |
} |
1132 |
} |
1133 |
|
1134 |
/**
|
1135 |
* <p>
|
1136 |
* Calculates the affine transformation between the {@link #extent extent} in
|
1137 |
* <i>map 2D coordinates</i> to the image area in the screen, in <i>screen 2D
|
1138 |
* coordinates</i> (pixels).
|
1139 |
* </p>
|
1140 |
* <p>
|
1141 |
* This process recalculates some parameters of this view port:<br>
|
1142 |
* <ul>
|
1143 |
* <li>The new {@link #scale scale} .
|
1144 |
* <li>The new {@link #adjustedExtent adjustedExtent} .
|
1145 |
* <li>The new {@link #trans trans} .
|
1146 |
* <li>The new real world coordinates equivalent to 1 pixel (
|
1147 |
* {@link #dist1pixel dist1pixel}) .
|
1148 |
* <li>The new real world coordinates equivalent to 3 pixels (
|
1149 |
* {@link #dist3pixel dist3pixel}) .
|
1150 |
* </ul>
|
1151 |
* </p>
|
1152 |
*
|
1153 |
* @see #getAffineTransform()
|
1154 |
* @see #setAffineTransform(AffineTransform)
|
1155 |
* @see #refreshExtent()
|
1156 |
* @see #setEnvelope(Envelope)
|
1157 |
* @see #setImageSize(Dimension)
|
1158 |
* @see #setPreviousExtent()
|
1159 |
* @see #createFromXML(XMLEntity)
|
1160 |
* @see AffineTransform
|
1161 |
*/
|
1162 |
private void calculateAffineTransform() { |
1163 |
if ((imageSize == null) || (extent == null) || (imageSize.width <= 0) |
1164 |
|| (imageSize.height <= 0)) {
|
1165 |
return;
|
1166 |
} |
1167 |
|
1168 |
AffineTransform escalado = new AffineTransform(); |
1169 |
AffineTransform translacion = new AffineTransform(); |
1170 |
|
1171 |
double escalaX;
|
1172 |
double escalaY;
|
1173 |
|
1174 |
escalaX = imageSize.width / extent.getWidth(); |
1175 |
escalaY = imageSize.height / extent.getHeight(); |
1176 |
|
1177 |
double xCenter = extent.getCenterX();
|
1178 |
double yCenter = extent.getCenterY();
|
1179 |
double newHeight;
|
1180 |
double newWidth;
|
1181 |
|
1182 |
adjustedExtent = new Rectangle2D.Double(); |
1183 |
|
1184 |
if (adjustableExtent) {
|
1185 |
if (escalaX < escalaY) {
|
1186 |
scale = escalaX; |
1187 |
newHeight = imageSize.height / scale; |
1188 |
adjustedExtent.setRect(xCenter - (extent.getWidth() / 2.0), yCenter
|
1189 |
- (newHeight / 2.0), extent.getWidth(), newHeight);
|
1190 |
} |
1191 |
else {
|
1192 |
scale = escalaY; |
1193 |
newWidth = imageSize.width / scale; |
1194 |
adjustedExtent.setRect(xCenter - (newWidth / 2.0),
|
1195 |
yCenter - (extent.getHeight() / 2.0), newWidth, extent.getHeight());
|
1196 |
} |
1197 |
escalado.setToScale(scale, -scale); |
1198 |
} |
1199 |
else { // adjusted is same as extent |
1200 |
scale = escalaX; |
1201 |
adjustedExtent.setFrame(extent); |
1202 |
escalado.setToScale(escalaX, -escalaY); |
1203 |
} |
1204 |
Envelope env = getAdjustedExtent(); |
1205 |
if (env == null) { |
1206 |
return;
|
1207 |
} |
1208 |
translacion.setToTranslation(-env.getMinimum(0), -env.getMinimum(1) |
1209 |
- getAdjustedExtent().getLength(1));
|
1210 |
|
1211 |
AffineTransform offsetTrans = new AffineTransform(); |
1212 |
offsetTrans.setToTranslation(offset.getX(), offset.getY()); |
1213 |
|
1214 |
trans.setToIdentity(); |
1215 |
trans.concatenate(offsetTrans); |
1216 |
trans.concatenate(escalado); |
1217 |
|
1218 |
trans.concatenate(translacion); |
1219 |
|
1220 |
// Calculamos las distancias de 1 pixel y 3 pixel con esa
|
1221 |
// transformaci?n
|
1222 |
// de coordenadas, de forma que est?n precalculadas para cuando las
|
1223 |
// necesitemos
|
1224 |
AffineTransform at;
|
1225 |
|
1226 |
try {
|
1227 |
at = trans.createInverse(); |
1228 |
|
1229 |
Point2D pPixel = new Point2D.Float(1, 1); |
1230 |
|
1231 |
Point2D.Float pProv = new Point2D.Float(); |
1232 |
at.deltaTransform(pPixel, pProv); |
1233 |
|
1234 |
dist1pixel = pProv.x; |
1235 |
dist3pixel = 3 * pProv.x;
|
1236 |
} |
1237 |
catch (NoninvertibleTransformException e) { |
1238 |
String msg = "Can't calculate affine transform for the view port." + "\n" + |
1239 |
"The extent can be out of range for this projection." + "\n" + |
1240 |
"transformada afin: " + Objects.toString(trans) + "\n" + |
1241 |
"extent: " + Objects.toString(extent) + "\n" + |
1242 |
"imageSize: " + Objects.toString(imageSize) + "\n" + |
1243 |
"projection: " + Objects.toString(proj) + "\n" + |
1244 |
e.getLocalizedMessage() |
1245 |
; |
1246 |
logger.error(msg, e); |
1247 |
trans.setToIdentity(); |
1248 |
scale = 0;
|
1249 |
adjustedExtent = null;
|
1250 |
adjustableExtent = true;
|
1251 |
throw new RuntimeException(msg, e); |
1252 |
} |
1253 |
} |
1254 |
|
1255 |
/**
|
1256 |
* <p>
|
1257 |
* Sets the offset.
|
1258 |
* </p>
|
1259 |
* <p>
|
1260 |
* The offset is the position where start drawing the map.
|
1261 |
* </p>
|
1262 |
*
|
1263 |
* @param p 2D point that represents the offset in pixels
|
1264 |
* @see #getOffset()
|
1265 |
*/
|
1266 |
public void setOffset(Point2D p) { |
1267 |
if (!offset.equals(p)) {
|
1268 |
this.updateDrawVersion();
|
1269 |
offset = p; |
1270 |
} |
1271 |
} |
1272 |
|
1273 |
/**
|
1274 |
* <p>
|
1275 |
* Gets the offset.
|
1276 |
* </p>
|
1277 |
* <p>
|
1278 |
* The offset is the position where start drawing the map.
|
1279 |
* </p>
|
1280 |
*
|
1281 |
* @return 2D point that represents the offset in pixels
|
1282 |
* @see #setOffset(Point2D)
|
1283 |
*/
|
1284 |
public Point2D getOffset() { |
1285 |
return offset;
|
1286 |
} |
1287 |
|
1288 |
/**
|
1289 |
* <p>
|
1290 |
* Sets the background color.
|
1291 |
* </p>
|
1292 |
*
|
1293 |
* @param c the new background color
|
1294 |
* @see #getBackColor()
|
1295 |
*/
|
1296 |
public void setBackColor(Color c) { |
1297 |
if (!c.equals(this.backColor)) { |
1298 |
this.updateDrawVersion();
|
1299 |
backColor = c; |
1300 |
callColorChanged(backColor); |
1301 |
} |
1302 |
} |
1303 |
|
1304 |
/**
|
1305 |
* <p>
|
1306 |
* Sets the selection color.
|
1307 |
* </p>
|
1308 |
*
|
1309 |
* @param c the new selection color
|
1310 |
* @see #getSelectionColor()
|
1311 |
*/
|
1312 |
public void setSelectionColor(Color c) { |
1313 |
if (!c.equals(this.selectionColor)) { |
1314 |
this.updateDrawVersion();
|
1315 |
selectionColor = c; |
1316 |
callSelectionColorChanged(selectionColor); |
1317 |
} |
1318 |
} |
1319 |
|
1320 |
/**
|
1321 |
* <p>
|
1322 |
* Gets the background color.
|
1323 |
* </p>
|
1324 |
*
|
1325 |
* @return the background color of the view
|
1326 |
* @see #setBackColor(Color)
|
1327 |
*/
|
1328 |
public Color getBackColor() { |
1329 |
return backColor;
|
1330 |
} |
1331 |
|
1332 |
/**
|
1333 |
* <p>
|
1334 |
* Gets the selection color.
|
1335 |
* </p>
|
1336 |
*
|
1337 |
* @return the selection color of the view
|
1338 |
* @see #setSelectionColor(Color)
|
1339 |
*/
|
1340 |
public Color getSelectionColor() { |
1341 |
return selectionColor;
|
1342 |
} |
1343 |
|
1344 |
/**
|
1345 |
* <p>
|
1346 |
* Returns the extent currently covered by the view adjusted (scaled) to the
|
1347 |
* image size aspect.
|
1348 |
* </p>
|
1349 |
*
|
1350 |
* @return extent of the view adjusted to the image size aspect
|
1351 |
* @see #setAdjustable(boolean)
|
1352 |
* @deprecated use {@link ViewPort#getAdjustedEnvelope()} instead
|
1353 |
*/
|
1354 |
public Envelope getAdjustedExtent() {
|
1355 |
return getAdjustedEnvelope();
|
1356 |
} |
1357 |
|
1358 |
/**
|
1359 |
* <p>
|
1360 |
* Returns the envelope currently covered by the view adjusted (scaled) to the
|
1361 |
* image size aspect.
|
1362 |
* </p>
|
1363 |
*
|
1364 |
* @return envelope of the view adjusted to the image size aspect
|
1365 |
* @see #setAdjustable(boolean)
|
1366 |
*/
|
1367 |
public Envelope getAdjustedEnvelope() {
|
1368 |
if (adjustedExtent == null) { |
1369 |
calculateAffineTransform(); |
1370 |
} |
1371 |
if (cliprect != null) { |
1372 |
Rectangle2D r = adjustedExtent.createIntersection(cliprect);
|
1373 |
try {
|
1374 |
return geomManager.createEnvelope(r.getX(), r.getY(), r.getMaxX(), r.getMaxY(), SUBTYPES.GEOM2D);
|
1375 |
} catch (CreateEnvelopeException e) {
|
1376 |
e.printStackTrace(); |
1377 |
logger.error("Error adjusting the extent", e);
|
1378 |
} |
1379 |
} |
1380 |
if (adjustedExtent != null) { |
1381 |
try {
|
1382 |
return geomManager.createEnvelope(adjustedExtent.getX(), adjustedExtent.getY(),
|
1383 |
adjustedExtent.getMaxX(), adjustedExtent.getMaxY(), SUBTYPES.GEOM2D); |
1384 |
} catch (CreateEnvelopeException e) {
|
1385 |
e.printStackTrace(); |
1386 |
logger.error("Error adjusting the extent", e);
|
1387 |
} |
1388 |
} |
1389 |
return null; |
1390 |
} |
1391 |
|
1392 |
/**
|
1393 |
* <p>
|
1394 |
* Returns the measurement unit of this view port used for measuring distances
|
1395 |
* and displaying information.
|
1396 |
* </p>
|
1397 |
*
|
1398 |
* @return the measurement unit of this view used for measuring distances and
|
1399 |
* displaying information
|
1400 |
* @see #setDistanceUnits(int)
|
1401 |
*/
|
1402 |
public int getDistanceUnits() { |
1403 |
return distanceUnits;
|
1404 |
} |
1405 |
|
1406 |
/**
|
1407 |
* <p>
|
1408 |
* Returns the measurement unit of this view port used for measuring areas and
|
1409 |
* displaying information.
|
1410 |
* </p>
|
1411 |
*
|
1412 |
* @return the measurement unit of this view used for measuring areas and
|
1413 |
* displaying information
|
1414 |
* @see #setDistanceUnits(int)
|
1415 |
*/
|
1416 |
public int getDistanceArea() { |
1417 |
return distanceArea;
|
1418 |
} |
1419 |
|
1420 |
/**
|
1421 |
* <p>
|
1422 |
* Sets the measurement unit of this view port used for measuring distances
|
1423 |
* and displaying information.
|
1424 |
* </p>
|
1425 |
*
|
1426 |
* @param distanceUnits the measurement unit of this view used for measuring
|
1427 |
* distances and displaying information
|
1428 |
* @see #getDistanceUnits()
|
1429 |
*/
|
1430 |
public void setDistanceUnits(int distanceUnits) { |
1431 |
this.distanceUnits = distanceUnits;
|
1432 |
} |
1433 |
|
1434 |
/**
|
1435 |
* <p>
|
1436 |
* Sets the measurement unit of this view port used for measuring areas and
|
1437 |
* displaying information.
|
1438 |
* </p>
|
1439 |
*
|
1440 |
* @param distanceUnits the measurement unit of this view used for measuring
|
1441 |
* areas and displaying information
|
1442 |
* @see #getDistanceUnits()
|
1443 |
*/
|
1444 |
public void setDistanceArea(int distanceArea) { |
1445 |
this.distanceArea = distanceArea;
|
1446 |
} |
1447 |
|
1448 |
/**
|
1449 |
* <p>
|
1450 |
* Gets the measurement unit used by this view port for the map.
|
1451 |
* </p>
|
1452 |
*
|
1453 |
* @return Returns the current map measure unit
|
1454 |
* @see #setMapUnits(int)
|
1455 |
*/
|
1456 |
public int getMapUnits() { |
1457 |
return mapUnits;
|
1458 |
} |
1459 |
|
1460 |
/**
|
1461 |
* <p>
|
1462 |
* Sets the measurement unit used by this view port for the map.
|
1463 |
* </p>
|
1464 |
*
|
1465 |
* @param mapUnits the new map measure unit
|
1466 |
* @see #getMapUnits()
|
1467 |
*/
|
1468 |
public void setMapUnits(int mapUnits) { |
1469 |
this.mapUnits = mapUnits;
|
1470 |
} |
1471 |
|
1472 |
/**
|
1473 |
* <p>
|
1474 |
* Gets the width in <i>screen coordinates</i> of the rectangle where the
|
1475 |
* image is displayed.
|
1476 |
* </p>
|
1477 |
* <p>
|
1478 |
* Used by {@linkplain #calculateAffineTransform()} to calculate:<br>
|
1479 |
* <ul>
|
1480 |
* <li>The new {@link #scale scale} .
|
1481 |
* <li>The new {@link #adjustedExtent adjustableExtent} .
|
1482 |
* <li>The new {@link #trans trans} .
|
1483 |
* <li>The new real world coordinates equivalent to 1 pixel (
|
1484 |
* {@link #dist1pixel dist1pixel}) .
|
1485 |
* <li>The new real world coordinates equivalent to 3 pixels (
|
1486 |
* {@link #dist3pixel dist3pixel}) .
|
1487 |
* </ul>
|
1488 |
* </p>
|
1489 |
*
|
1490 |
* @see #getImageHeight()
|
1491 |
* @see #getImageSize()
|
1492 |
* @see #setImageSize(Dimension)
|
1493 |
*/
|
1494 |
public int getImageWidth() { |
1495 |
return imageSize.width;
|
1496 |
} |
1497 |
|
1498 |
/**
|
1499 |
* <p>
|
1500 |
* Gets the height in <i>screen coordinates</i> of the rectangle where the
|
1501 |
* image is displayed.
|
1502 |
* </p>
|
1503 |
* <p>
|
1504 |
* Used by {@linkplain #calculateAffineTransform()} to calculate:<br>
|
1505 |
* <ul>
|
1506 |
* <li>The new {@link #scale scale} .
|
1507 |
* <li>The new {@link #adjustedExtent adjustableExtent} .
|
1508 |
* <li>The new {@link #trans trans} .
|
1509 |
* <li>The new real world coordinates equivalent to 1 pixel (
|
1510 |
* {@link #dist1pixel dist1pixel}) .
|
1511 |
* <li>The new real world coordinates equivalent to 3 pixels (
|
1512 |
* {@link #dist3pixel dist3pixel}) .
|
1513 |
* </ul>
|
1514 |
* </p>
|
1515 |
*
|
1516 |
* @see #getImageWidth()
|
1517 |
* @see #getImageSize()
|
1518 |
* @see #setImageSize(Dimension)
|
1519 |
*/
|
1520 |
public int getImageHeight() { |
1521 |
return imageSize.height;
|
1522 |
} |
1523 |
|
1524 |
/**
|
1525 |
* <p>
|
1526 |
* Gets the distance in <i>world coordinates</i> equivalent to 1 pixel in the
|
1527 |
* view with the current extent.
|
1528 |
* </p>
|
1529 |
*
|
1530 |
* @return the distance
|
1531 |
* @see #setDist1pixel(double)
|
1532 |
*/
|
1533 |
public double getDist1pixel() { |
1534 |
return dist1pixel;
|
1535 |
} |
1536 |
|
1537 |
/**
|
1538 |
* <p>
|
1539 |
* Sets the distance in <i>world coordinates</i> equivalent to 1 pixel in the
|
1540 |
* view with the current extent.
|
1541 |
* </p>
|
1542 |
*
|
1543 |
* @param dist1pixel the distance
|
1544 |
* @see #getDist1pixel()
|
1545 |
*/
|
1546 |
public void setDist1pixel(double dist1pixel) { |
1547 |
if (dist1pixel == this.dist1pixel) { |
1548 |
return;
|
1549 |
} |
1550 |
this.updateDrawVersion();
|
1551 |
this.dist1pixel = dist1pixel;
|
1552 |
} |
1553 |
|
1554 |
/**
|
1555 |
* <p>
|
1556 |
* Gets the distance in <i>world coordinates</i> equivalent to 3 pixels in the
|
1557 |
* view with the current extent.
|
1558 |
* </p>
|
1559 |
*
|
1560 |
* @return the distance
|
1561 |
* @see #setDist3pixel(double)
|
1562 |
*/
|
1563 |
public double getDist3pixel() { |
1564 |
return dist3pixel;
|
1565 |
} |
1566 |
|
1567 |
/**
|
1568 |
* <p>
|
1569 |
* Sets the distance in <i>world coordinates</i> equivalent to 3 pixels in the
|
1570 |
* view with the current extent.
|
1571 |
* </p>
|
1572 |
*
|
1573 |
* @param dist3pixel the distance
|
1574 |
* @see #getDist3pixel()
|
1575 |
*/
|
1576 |
public void setDist3pixel(double dist3pixel) { |
1577 |
if (this.dist3pixel == dist3pixel) { |
1578 |
return;
|
1579 |
} |
1580 |
this.updateDrawVersion();
|
1581 |
this.dist3pixel = dist3pixel;
|
1582 |
} |
1583 |
|
1584 |
/**
|
1585 |
* <p>
|
1586 |
* Returns the last previous extents of this view port.
|
1587 |
* </p>
|
1588 |
*
|
1589 |
* @return the last previous extents of this view port
|
1590 |
* @see #setPreviousExtent()
|
1591 |
* @deprecated use {@link ViewPort#getEnvelopes()}
|
1592 |
*/
|
1593 |
public ExtentHistory getExtents() {
|
1594 |
return getEnvelopes();
|
1595 |
} |
1596 |
|
1597 |
/**
|
1598 |
* <p>
|
1599 |
* Returns the last previous extents of this view port.
|
1600 |
* </p>
|
1601 |
*
|
1602 |
* @return the last previous extents of this view port
|
1603 |
* @see #setPreviousExtent()
|
1604 |
*/
|
1605 |
public ExtentHistory getEnvelopes() {
|
1606 |
return extentsHistory;
|
1607 |
} |
1608 |
|
1609 |
/**
|
1610 |
* <p>
|
1611 |
* Gets the projection used in this view port.
|
1612 |
* </p>
|
1613 |
*
|
1614 |
* @return projection used in this view port
|
1615 |
* @see #setProjection(IProjection)
|
1616 |
*/
|
1617 |
public IProjection getProjection() {
|
1618 |
return proj;
|
1619 |
} |
1620 |
|
1621 |
/**
|
1622 |
* <p>
|
1623 |
* Sets the projection to this view port.
|
1624 |
* </p>
|
1625 |
*
|
1626 |
* @param proj the new projection
|
1627 |
* @see #getProjection()
|
1628 |
*/
|
1629 |
public void setProjection(IProjection proj) { |
1630 |
if (this.proj == null || !this.proj.getAbrev().equals(proj.getAbrev())) { |
1631 |
this.updateDrawVersion();
|
1632 |
this.proj = proj;
|
1633 |
int metros = MapContext.getDistancePosition("Metros"); |
1634 |
int grados = MapContext.getDistancePosition("Grados"); |
1635 |
if (proj.isProjected()) {
|
1636 |
if (this.getMapUnits() == grados) { |
1637 |
this.setMapUnits(metros);
|
1638 |
} |
1639 |
} else {
|
1640 |
this.setMapUnits(grados);
|
1641 |
} |
1642 |
|
1643 |
callProjectionChanged(proj); |
1644 |
} |
1645 |
} |
1646 |
|
1647 |
// -----------------------------------------------------------------------------------------------------------
|
1648 |
// NOTA PARA DESARROLLADORES SOBRE EL M?TODO
|
1649 |
// "public void setAffineTransform(AffineTransform at)"
|
1650 |
// ==============================================================================================
|
1651 |
// Only used for print, should be removed, redefining the {@link
|
1652 |
// RasterAdapter RasterAdapter} interface,
|
1653 |
// allowing it to receive a {@link ViewPortData ViewPortData} .
|
1654 |
// -----------------------------------------------------------------------------------------------------------
|
1655 |
|
1656 |
/**
|
1657 |
* <p>
|
1658 |
* Sets only the affine transform to this view port, without updating
|
1659 |
* dependent attributes.
|
1660 |
* </p>
|
1661 |
* <p>
|
1662 |
* <b><i>This method could be problematic!</i></b>
|
1663 |
* </p>
|
1664 |
*
|
1665 |
* @param at the affine transform to set
|
1666 |
* @see #getAffineTransform()
|
1667 |
* @see #calculateAffineTransform()
|
1668 |
*/
|
1669 |
public void setAffineTransform(AffineTransform at) { |
1670 |
this.trans = at;
|
1671 |
} |
1672 |
|
1673 |
/**
|
1674 |
* <p>
|
1675 |
* Returns an XML entity that represents this view port instance:<br>
|
1676 |
* <ul>
|
1677 |
* <li>Properties:
|
1678 |
* <ul>
|
1679 |
* <li><i>className</i>: name of this class.
|
1680 |
* <li>If defined, the adjusted extent:
|
1681 |
* <ul>
|
1682 |
* <li><i>adjustedExtentX</i>: X coordinate of the adjusted extent.
|
1683 |
* <li><i>adjustedExtentY</i>: Y coordinate of the adjusted extent.
|
1684 |
* <li><i>adjustedExtentW</i>: width of the adjusted extent.
|
1685 |
* <li><i>adjustedExtentH</i>: height of the adjusted extent.
|
1686 |
* </ul>
|
1687 |
* <li>If defined, the background color:
|
1688 |
* <ul>
|
1689 |
* <li><i>backColor</i>: background color.
|
1690 |
* </ul>
|
1691 |
* <li>If defined, the clip:
|
1692 |
* <ul>
|
1693 |
* <li><i>clipX</i>: X coordinate of the clip.
|
1694 |
* <li><i>clipY</i>: Y coordinate of clip.
|
1695 |
* <li><i>clipW</i>: width of the clip.
|
1696 |
* <li><i>clipH</i>: height of the clip.
|
1697 |
* </ul>
|
1698 |
* <li><i>dist1pixel</i>: the distance in world coordinates equivalent to 1
|
1699 |
* pixel in the view.
|
1700 |
* <li><i>dist3pixel</i>: the distance in world coordinates equivalent to 3
|
1701 |
* pixels in the view.
|
1702 |
* <li><i>distanceUnits</i>: the distance measurement unit.
|
1703 |
* <li>If defined, the extent:
|
1704 |
* <ul>
|
1705 |
* <li><i>extentX</i>: X coordinate of the extent.
|
1706 |
* <li><i>extentY</i>: Y coordinate of the extent.
|
1707 |
* <li><i>extentW</i>: width of the extent.
|
1708 |
* <li><i>extentH</i>: height of the extent.
|
1709 |
* </ul>
|
1710 |
* <li><i>mapUnits</i>: the map measurement unit.
|
1711 |
* <li><i>offsetX</i>: X coordinate of the offset.
|
1712 |
* <li><i>offsetY</i>: Y coordinate of the offset.
|
1713 |
* <li>If defined, the projection:
|
1714 |
* <ul>
|
1715 |
* <li>If its defined, the projection:
|
1716 |
* <ul>
|
1717 |
* <li><i>proj</i>: the projection.</li>
|
1718 |
* </ul>
|
1719 |
* </ul>
|
1720 |
* <li><i>scale</i>: ratio between the size of <code>imageSize</code> and
|
1721 |
* <code>extent</code>.
|
1722 |
* </ul>
|
1723 |
* <li>Child branches:
|
1724 |
* <ul>
|
1725 |
* <li>XML entity of the internal {@link ExtentHistory ExtentHistory} .
|
1726 |
* </ul>
|
1727 |
* </ul>
|
1728 |
*
|
1729 |
* @return the XML entity
|
1730 |
* @see #createFromXML(XMLEntity)
|
1731 |
*/
|
1732 |
public void saveToState(PersistentState state) throws PersistenceException { |
1733 |
|
1734 |
state.set(FIELD_ADJUSTED_EXTENT, adjustedExtent); |
1735 |
state.set(FIELD_BACK_COLOR, backColor); |
1736 |
state.set(FIELD_CLIP, cliprect); |
1737 |
state.set(FIELD_DIST1PIXEL, dist1pixel); |
1738 |
state.set(FIELD_DIST3PIXEL, dist3pixel); |
1739 |
state.set(FIELD_DISTANCE_UNITS, distanceUnits); |
1740 |
state.set(FIELD_DISTANCE_AREA, distanceArea); |
1741 |
|
1742 |
state.set(FIELD_EXTENT, extent); |
1743 |
state.set(FIELD_EXTENTS, extentsHistory); |
1744 |
|
1745 |
state.set(FIELD_MAP_UNITS, mapUnits); |
1746 |
state.set(FIELD_OFFSET, offset); |
1747 |
|
1748 |
state.set(FIELD_PROJ, proj); |
1749 |
|
1750 |
state.set(FIELD_IMAGE_SIZE, imageSize); |
1751 |
|
1752 |
state.set("selectionColor", this.getSelectionColor()); |
1753 |
|
1754 |
} |
1755 |
|
1756 |
public void loadFromState(PersistentState state) throws PersistenceException { |
1757 |
|
1758 |
adjustedExtent = (Rectangle2D) state.get(FIELD_ADJUSTED_EXTENT);
|
1759 |
backColor = (Color) state.get(FIELD_BACK_COLOR);
|
1760 |
cliprect = (Rectangle2D) state.get(FIELD_CLIP);
|
1761 |
dist1pixel = state.getDouble(FIELD_DIST1PIXEL); |
1762 |
dist3pixel = state.getDouble(FIELD_DIST3PIXEL); |
1763 |
distanceUnits = state.getInt(FIELD_DISTANCE_UNITS); |
1764 |
extentsHistory = (ExtentHistory) state.get(FIELD_EXTENTS); |
1765 |
extent = (Rectangle2D) state.get(FIELD_EXTENT);
|
1766 |
mapUnits = state.getInt(FIELD_MAP_UNITS); |
1767 |
offset = (Point2D) state.get(FIELD_OFFSET);
|
1768 |
proj = (IProjection) state.get(FIELD_PROJ); |
1769 |
imageSize = (Dimension) state.get(FIELD_IMAGE_SIZE);
|
1770 |
distanceArea = state.getInt(FIELD_DISTANCE_AREA); |
1771 |
|
1772 |
this.selectionColor = (Color) state.get("selectionColor"); |
1773 |
if (this.selectionColor == null) { |
1774 |
this.selectionColor = DEFAULT_SELECTION_COLOR;
|
1775 |
} |
1776 |
|
1777 |
refreshExtent(); |
1778 |
} |
1779 |
|
1780 |
public static class RegisterPersistence implements Callable { |
1781 |
|
1782 |
public Object call() throws Exception { |
1783 |
PersistenceManager manager = ToolsLocator.getPersistenceManager(); |
1784 |
if (manager.getDefinition("ViewPort") == null) { |
1785 |
DynStruct definition = manager.addDefinition(ViewPort.class, |
1786 |
"ViewPort", "ViewPort Persistence definition", null, null); |
1787 |
|
1788 |
definition.addDynFieldObject(FIELD_ADJUSTED_EXTENT) |
1789 |
.setClassOfValue(Rectangle2D.class).setMandatory(false); |
1790 |
|
1791 |
definition.addDynFieldObject(FIELD_BACK_COLOR) |
1792 |
.setClassOfValue(Color.class).setMandatory(false); |
1793 |
|
1794 |
definition.addDynFieldObject(FIELD_CLIP) |
1795 |
.setClassOfValue(Rectangle2D.class).setMandatory(false); |
1796 |
|
1797 |
definition.addDynFieldDouble(FIELD_DIST1PIXEL).setMandatory(true);
|
1798 |
|
1799 |
definition.addDynFieldDouble(FIELD_DIST3PIXEL).setMandatory(true);
|
1800 |
|
1801 |
definition.addDynFieldInt(FIELD_DISTANCE_UNITS).setMandatory(true);
|
1802 |
|
1803 |
definition.addDynFieldInt(FIELD_DISTANCE_AREA).setMandatory(false);
|
1804 |
|
1805 |
definition.addDynFieldObject(FIELD_EXTENT) |
1806 |
.setClassOfValue(Rectangle2D.class).setMandatory(false); |
1807 |
|
1808 |
definition.addDynFieldObject(FIELD_EXTENTS) |
1809 |
.setClassOfValue(ExtentHistory.class).setMandatory(true);
|
1810 |
|
1811 |
definition.addDynFieldInt(FIELD_MAP_UNITS).setMandatory(true);
|
1812 |
|
1813 |
definition.addDynFieldObject(FIELD_OFFSET) |
1814 |
.setClassOfValue(Point2D.class).setMandatory(false); |
1815 |
|
1816 |
definition.addDynFieldObject(FIELD_PROJ) |
1817 |
.setClassOfValue(IProjection.class).setMandatory(true);
|
1818 |
|
1819 |
definition.addDynFieldObject(FIELD_IMAGE_SIZE) |
1820 |
.setClassOfValue(Dimension.class).setMandatory(false); |
1821 |
|
1822 |
definition.addDynFieldObject("selectionColor")
|
1823 |
.setClassOfValue(Color.class)
|
1824 |
.setMandatory(false);
|
1825 |
|
1826 |
} |
1827 |
return Boolean.TRUE; |
1828 |
} |
1829 |
|
1830 |
} |
1831 |
|
1832 |
/**
|
1833 |
* Clone the view port without clone the listeners nor the extent history.
|
1834 |
*
|
1835 |
* @return the cloned view port
|
1836 |
*/
|
1837 |
public Object clone() throws CloneNotSupportedException { |
1838 |
|
1839 |
ViewPort clonedViewPort = (ViewPort) super.clone();
|
1840 |
clonedViewPort.listeners = new ArrayList<>(); |
1841 |
clonedViewPort.extentsHistory = new ExtentHistory();
|
1842 |
|
1843 |
if (this.adjustedExtent != null) { |
1844 |
clonedViewPort.adjustedExtent = (Rectangle2D) this.adjustedExtent.clone(); |
1845 |
} |
1846 |
|
1847 |
if (this.cliprect != null) { |
1848 |
clonedViewPort.cliprect = (Rectangle2D) this.cliprect.clone(); |
1849 |
} |
1850 |
|
1851 |
if (this.extent != null) { |
1852 |
clonedViewPort.extent = (Rectangle2D) this.extent.clone(); |
1853 |
} |
1854 |
if (this.imageSize != null) { |
1855 |
clonedViewPort.imageSize = (Dimension) this.imageSize.clone(); |
1856 |
} |
1857 |
|
1858 |
if (this.offset != null) { |
1859 |
clonedViewPort.offset = (Point2D) this.offset.clone(); |
1860 |
} |
1861 |
if (proj != null) { |
1862 |
clonedViewPort.proj = (IProjection) this.proj.clone();
|
1863 |
} |
1864 |
|
1865 |
clonedViewPort.trans = (AffineTransform) this.trans.clone(); |
1866 |
|
1867 |
if (this.selectionColor != null) { |
1868 |
clonedViewPort.setSelectionColor(this.selectionColor);
|
1869 |
} |
1870 |
|
1871 |
if (this.backColor != null) { |
1872 |
clonedViewPort.setBackColor(this.backColor);
|
1873 |
} |
1874 |
|
1875 |
return clonedViewPort;
|
1876 |
} |
1877 |
|
1878 |
/**
|
1879 |
* <p>
|
1880 |
* Returns a <code>String</code> representation of the main values of this
|
1881 |
* view port: <code>{@linkplain #extent}</code>,
|
1882 |
* <code>{@linkplain #adjustedExtent}</code>,
|
1883 |
* <code>{@linkplain #imageSize}</code>, <code>{@linkplain #scale}</code>, and
|
1884 |
* <code>{@linkplain #trans}</code>.
|
1885 |
* </p>
|
1886 |
*
|
1887 |
* @return a <code>string</code> representation of the main values of this
|
1888 |
* view port
|
1889 |
*/
|
1890 |
public String toString() { |
1891 |
|
1892 |
String str;
|
1893 |
str = "Datos del viewPort:\nExtent=" + extent + "\nadjustedExtent=" |
1894 |
+ adjustedExtent + "\nimageSize=" + imageSize + "\nescale=" + scale |
1895 |
+ "\ntrans=" + trans;
|
1896 |
|
1897 |
return str;
|
1898 |
} |
1899 |
|
1900 |
/**
|
1901 |
* <p>
|
1902 |
* Sets the position and size of the clipping rectangle.
|
1903 |
* </p>
|
1904 |
*
|
1905 |
* @param rectView the clipping rectangle to set
|
1906 |
*/
|
1907 |
public void setClipRect(Rectangle2D rectView) { |
1908 |
this.updateDrawVersion();
|
1909 |
cliprect = rectView; |
1910 |
} |
1911 |
|
1912 |
/**
|
1913 |
* <p>
|
1914 |
* Converts and returns the {@link Rectangle2D Rectangle2D}, that is in <i>map
|
1915 |
* coordinates</i> to <i>screen coordinates</i> (pixels) using an <i>inverse
|
1916 |
* transform</i> with the transformation affine information in the
|
1917 |
* {@link #trans #trans} attribute.
|
1918 |
* </p>
|
1919 |
*
|
1920 |
* @param r the 2D rectangle in <i>map coordinates</i>
|
1921 |
* @return 2D rectangle equivalent in <i>screen coordinates</i> (pixels)
|
1922 |
* @see #toMapRectangle(Rectangle2D)
|
1923 |
* @see #fromMapDistance(double)
|
1924 |
* @see #fromMapPoint(Point2D)
|
1925 |
*/
|
1926 |
public Rectangle2D fromMapRectangle(Rectangle2D r) { |
1927 |
Rectangle2D rect = new Rectangle2D.Double(); |
1928 |
Point2D p1 = fromMapPoint((int) r.getX(), (int) r.getY()); |
1929 |
Point2D p2 = fromMapPoint((int) r.getMaxX(), (int) r.getMaxY()); |
1930 |
rect.setFrameFromDiagonal(p1, p2); |
1931 |
return rect;
|
1932 |
} |
1933 |
|
1934 |
/**
|
1935 |
* <p>
|
1936 |
* Recalculates the current <code>{@linkplain #extent}</code> using an scale.
|
1937 |
* It's necessary execute {@linkplain #refreshExtent()} after.
|
1938 |
* </p>
|
1939 |
*
|
1940 |
* @param s the scale to set
|
1941 |
* @deprecated since 07/09/07, use {@linkplain MapContext#setScaleView(long)}
|
1942 |
*/
|
1943 |
public void setScale(long s) { |
1944 |
double x = extent.getX();
|
1945 |
double y = extent.getY();
|
1946 |
double escalaX = imageSize.width / extent.getWidth();
|
1947 |
// double w = imageSize.width / s;
|
1948 |
// double h = imageSize.height / s;
|
1949 |
double difw = escalaX / s;
|
1950 |
|
1951 |
double x1 = (-x * difw) - x + extent.getWidth() / 2; |
1952 |
double y1 = (-y * difw) - y + extent.getHeight() / 2; |
1953 |
double w1 = extent.getWidth() * difw;
|
1954 |
double h1 = extent.getHeight() * difw;
|
1955 |
extent.setRect(-x1, -y1, w1, h1); |
1956 |
} |
1957 |
|
1958 |
public long getDrawVersion() { |
1959 |
return this.drawVersion; |
1960 |
} |
1961 |
|
1962 |
protected void updateDrawVersion() { |
1963 |
this.drawVersion++;
|
1964 |
} |
1965 |
|
1966 |
public Time getTime() { |
1967 |
return time;
|
1968 |
} |
1969 |
|
1970 |
public void setTime(Time time) { |
1971 |
this.time = time;
|
1972 |
this.updateDrawVersion();
|
1973 |
callTimeChanged(time); |
1974 |
} |
1975 |
|
1976 |
public double getDPI() { |
1977 |
if (this.dpi == null) { |
1978 |
return CompatLocator.getGraphicsUtils().getScreenDPI();
|
1979 |
} |
1980 |
return this.dpi.doubleValue(); |
1981 |
} |
1982 |
|
1983 |
public void setDPI(double dpi) { |
1984 |
this.dpi = new Double(dpi); |
1985 |
} |
1986 |
|
1987 |
public void setDPIToScreenDPI() { |
1988 |
this.dpi = null; |
1989 |
} |
1990 |
} |