/*

   Licensed to the Apache Software Foundation (ASF) under one or more
   contributor license agreements.  See the NOTICE file distributed with
   this work for additional information regarding copyright ownership.
   The ASF licenses this file to You under the Apache License, Version 2.0
   (the "License"); you may not use this file except in compliance with
   the License.  You may obtain a copy of the License at

       http://www.apache.org/licenses/LICENSE-2.0

   Unless required by applicable law or agreed to in writing, software
   distributed under the License is distributed on an "AS IS" BASIS,
   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
   See the License for the specific language governing permissions and
   limitations under the License.

 */
package org.apache.batik.gvt;

import java.awt.Composite;
import java.awt.Graphics2D;
import java.awt.RenderingHints;
import java.awt.Shape;
import java.awt.geom.AffineTransform;
import java.awt.geom.Point2D;
import java.awt.geom.Rectangle2D;
import java.lang.ref.WeakReference;
import java.util.Map;

import org.apache.batik.ext.awt.image.renderable.ClipRable;
import org.apache.batik.ext.awt.image.renderable.Filter;
import org.apache.batik.gvt.filter.Mask;

The base class for all graphics nodes. A GraphicsNode encapsulates
graphical attributes and can perform atomic operations of a complex
rendering.
Author:
Thierry Kormann, Emmanuel Tissandier
Version:
$Id: GraphicsNode.java 1733416 2016-03-03 07:07:13Z gadams $/**
 * The base class for all graphics nodes. A GraphicsNode encapsulates
 * graphical attributes and can perform atomic operations of a complex
 * rendering.
 *
 * @author <a href="mailto:Thierry.Kormann@sophia.inria.fr">Thierry Kormann</a>
 * @author <a href="mailto:etissandier@ilog.fr">Emmanuel Tissandier</a>
 * @version $Id: GraphicsNode.java 1733416 2016-03-03 07:07:13Z gadams $
 */
public interface GraphicsNode {

    
Indicates that this graphics node can be the target for events when it
is visible and when the mouse is over the "painted" area.
/**
     * Indicates that this graphics node can be the target for events when it
     * is visible and when the mouse is over the "painted" area.
     */
    int VISIBLE_PAINTED = 0;

    
Indicates that this graphics node can be the target for events when it
is visible and when the mouse is over the filled area if any.
/**
     * Indicates that this graphics node can be the target for events when it
     * is visible and when the mouse is over the filled area if any.
     */
    int VISIBLE_FILL = 1;

    
Indicates that this graphics node can be the target for events when it
is visible and when the mouse is over the stroked area if any.
/**
     * Indicates that this graphics node can be the target for events when it
     * is visible and when the mouse is over the stroked area if any.
     */
    int VISIBLE_STROKE = 2;

    
Indicates that this graphics node can be the target for events when it
is visible and whatever is the filled and stroked area.
/**
     * Indicates that this graphics node can be the target for events when it
     * is visible and whatever is the filled and stroked area.
     */
    int VISIBLE = 3;

    
Indicates that this graphics node can be the target for events when the
mouse is over the painted area whatever or not it is the visible.
/**
     * Indicates that this graphics node can be the target for events when the
     * mouse is over the painted area whatever or not it is the visible.
     */
    int PAINTED = 4;

    
Indicates that this graphics node can be the target for events when the
mouse is over the filled area whatever or not it is the visible.
/**
     * Indicates that this graphics node can be the target for events when the
     * mouse is over the filled area whatever or not it is the visible.
     */
    int FILL = 5;

    
Indicates that this graphics node can be the target for events when the
mouse is over the stroked area whatever or not it is the visible.
/**
     * Indicates that this graphics node can be the target for events when the
     * mouse is over the stroked area whatever or not it is the visible.
     */
    int STROKE = 6;

    
Indicates that this graphics node can be the target for events if any
cases.
/**
     * Indicates that this graphics node can be the target for events if any
     * cases.
     */
    int ALL = 7;

    
Indicates that this graphics node can not be the target for events.
/**
     * Indicates that this graphics node can not be the target for events.
     */
    int NONE = 8;

    
The identity affine transform matrix used to draw renderable images.
/**
     * The identity affine transform matrix used to draw renderable images.
     */
    AffineTransform IDENTITY = new AffineTransform();

    
Returns a canonical WeakReference to this GraphicsNode.
This is suitable for use as a key value in a hash map
/**
     * Returns a canonical WeakReference to this GraphicsNode.
     * This is suitable for use as a key value in a hash map
     */
    WeakReference getWeakReference();

    //
    // Properties methods
    //

    
Returns the type that describes how this graphics node reacts to events.
Returns:
VISIBLE_PAINTED | VISIBLE_FILL | VISIBLE_STROKE | VISIBLE |
PAINTED | FILL | STROKE | ALL | NONE/**
     * Returns the type that describes how this graphics node reacts to events.
     *
     * @return VISIBLE_PAINTED | VISIBLE_FILL | VISIBLE_STROKE | VISIBLE |
     * PAINTED | FILL | STROKE | ALL | NONE
     */
    int getPointerEventType();

    
Sets the type that describes how this graphics node reacts to events.
Params:
pointerEventType – VISIBLE_PAINTED | VISIBLE_FILL | VISIBLE_STROKE |
VISIBLE | PAINTED | FILL | STROKE | ALL | NONE/**
     * Sets the type that describes how this graphics node reacts to events.
     *
     * @param pointerEventType VISIBLE_PAINTED | VISIBLE_FILL | VISIBLE_STROKE |
     * VISIBLE | PAINTED | FILL | STROKE | ALL | NONE
     */
    void setPointerEventType(int pointerEventType);

    
Sets the transform of this node.
Params:
newTransform – the new transform of this node/**
     * Sets the transform of this node.
     *
     * @param newTransform the new transform of this node
     */
    void setTransform(AffineTransform newTransform);

    
Returns the transform of this node or null if any.
/**
     * Returns the transform of this node or null if any.
     */
    AffineTransform getTransform();

    
Returns the inverse transform for this node.
/**
     * Returns the inverse transform for this node.
     */
    AffineTransform getInverseTransform();

    
Returns the concatenated transform of this node. That is, this
node's transform preconcatenated with it's parent's transforms.
/**
     * Returns the concatenated transform of this node. That is, this
     * node's transform preconcatenated with it's parent's transforms.
     */
    AffineTransform getGlobalTransform();

    
Sets the composite of this node.
Params:
newComposite – the composite of this node/**
     * Sets the composite of this node.
     *
     * @param newComposite the composite of this node
     */
    void setComposite(Composite newComposite);

    
Returns the composite of this node or null if any.
/**
     * Returns the composite of this node or null if any.
     */
    Composite getComposite();

    
Sets if this node is visible or not depending on the specified value.
Params:
isVisible – If true this node is visible/**
     * Sets if this node is visible or not depending on the specified value.
     *
     * @param isVisible If true this node is visible
     */
    void setVisible(boolean isVisible);

    
Returns true if this node is visible, false otherwise.
/**
     * Returns true if this node is visible, false otherwise.
     */
    boolean isVisible();

    
Sets the clipping filter of this node.
Params:
newClipper – the new clipping filter of this node/**
     * Sets the clipping filter of this node.
     *
     * @param newClipper the new clipping filter of this node
     */
    void setClip(ClipRable newClipper);

    
Returns the clipping filter of this node or null if any.
/**
     * Returns the clipping filter of this node or null if any.
     */
    ClipRable getClip();

    
Maps the specified key to the specified value in the rendering hints of
this node.
Params:
key – the key of the hint to be set
value – the value indicating preferences for the specified
hint category./**
     * Maps the specified key to the specified value in the rendering hints of
     * this node.
     *
     * @param key the key of the hint to be set
     * @param value the value indicating preferences for the specified
     * hint category.
     */
    void setRenderingHint(RenderingHints.Key key, Object value);

    
Copies all of the mappings from the specified Map to the
rendering hints of this node.
Params:
hints – the rendering hints to be set/**
     * Copies all of the mappings from the specified Map to the
     * rendering hints of this node.
     *
     * @param hints the rendering hints to be set
     */
    void setRenderingHints(Map hints);

    
Sets the rendering hints of this node.
Params:
newHints – the new rendering hints of this node/**
     * Sets the rendering hints of this node.
     *
     * @param newHints the new rendering hints of this node
     */
    void setRenderingHints(RenderingHints newHints);

    
Returns the rendering hints of this node or null if any.
/**
     * Returns the rendering hints of this node or null if any.
     */
    RenderingHints getRenderingHints();

    
Sets the mask of this node.
Params:
newMask – the new mask of this node/**
     * Sets the mask of this node.
     *
     * @param newMask the new mask of this node
     */
    void setMask(Mask newMask);

    
Returns the mask of this node or null if any.
/**
     * Returns the mask of this node or null if any.
     */
    Mask getMask();

    
Sets the filter of this node.
Params:
newFilter – the new filter of this node/**
     * Sets the filter of this node.
     *
     * @param newFilter the new filter of this node
     */
    void setFilter(Filter newFilter);

    
Returns the filter of this node or null if any.
/**
     * Returns the filter of this node or null if any.
     */
    Filter getFilter();

    
Returns the GraphicsNodeRable for this node.  This
GraphicsNodeRable is the Renderable (Filter) before any of the
filter operations have been applied.
/**
     * Returns the GraphicsNodeRable for this node.  This
     * GraphicsNodeRable is the Renderable (Filter) before any of the
     * filter operations have been applied.
     */
    Filter getGraphicsNodeRable(boolean createIfNeeded);

    
Returns the GraphicsNodeRable for this node.  This
GraphicsNodeRable is the Renderable (Filter) after all of the
filter operations have been applied.
/**
     * Returns the GraphicsNodeRable for this node.  This
     * GraphicsNodeRable is the Renderable (Filter) after all of the
     * filter operations have been applied.
     */
    Filter getEnableBackgroundGraphicsNodeRable(boolean createIfNeeded);

    //
    // Drawing methods
    //

    
Paints this node.
Params:
g2d – the Graphics2D to use/**
     * Paints this node.
     *
     * @param g2d the Graphics2D to use
     */
    void paint(Graphics2D g2d);

    
Paints this node without applying Filter, Mask, Composite, and clip.
Params:
g2d – the Graphics2D to use/**
     * Paints this node without applying Filter, Mask, Composite, and clip.
     *
     * @param g2d the Graphics2D to use
     */
    void primitivePaint(Graphics2D g2d);

    //
    // Event support methods
    //

    /**
     * Dispatches the specified event to the interested registered listeners.
     * @param evt the event to dispatch
     */
    // void dispatchEvent(GraphicsNodeEvent evt);

    /**
     * Adds the specified graphics node mouse listener to receive graphics node
     * mouse events from this node.
     *
     * @param l the graphics node mouse listener to add
     */
    // void addGraphicsNodeMouseListener(GraphicsNodeMouseListener l);

    /**
     * Removes the specified graphics node mouse listener so that it no longer
     * receives graphics node mouse events from this node.
     *
     * @param l the graphics node mouse listener to remove
     */
    // void removeGraphicsNodeMouseListener(GraphicsNodeMouseListener l);

    /**
     * Adds the specified graphics node key listener to receive graphics node
     * key events from this node.
     *
     * @param l the graphics node key listener to add
     */
    // void addGraphicsNodeKeyListener(GraphicsNodeKeyListener l);

    /**
     * Removes the specified graphics node key listener so that it no longer
     * receives graphics node key events from this node.
     *
     * @param l the graphics node key listener to remove
     */
    // void removeGraphicsNodeKeyListener(GraphicsNodeKeyListener l);

    /**
     * Dispatches a graphics node mouse event to this node or one of its child.
     *
     * @param evt the evt to dispatch
     */
    // void processMouseEvent(GraphicsNodeMouseEvent evt);

    /**
     * Dispatches a graphics node key event to this node or one of its child.
     *
     * @param evt the evt to dispatch
     */
    // void processKeyEvent(GraphicsNodeKeyEvent evt);

    /**
     * Returns an array of listeners that were added to this node and of the
     * specified type.
     *
     * @param listenerType the type of the listeners to return
     */
    // EventListener [] getListeners(Class listenerType);

    //
    // Structural methods
    //

    
Returns the parent of this node or null if any.
/**
     * Returns the parent of this node or null if any.
     */
    CompositeGraphicsNode getParent();

    
Returns the root of the GVT tree or null if the node is not part of a GVT
tree.
/**
     * Returns the root of the GVT tree or null if the node is not part of a GVT
     * tree.
     */
    RootGraphicsNode getRoot();

    //
    // Geometric methods
    //

    
Returns the bounds of this node in user space. This includes primitive
paint, filtering, clipping and masking.
/**
     * Returns the bounds of this node in user space. This includes primitive
     * paint, filtering, clipping and masking.
     */
    Rectangle2D getBounds();

    
Returns the bounds of this node after applying the input transform
(if any), concatenated with this node's transform (if any).
Params:
txf – the affine transform with which this node's transform should
       be concatenated. Should not be null./**
     * Returns the bounds of this node after applying the input transform
     * (if any), concatenated with this node's transform (if any).
     *
     * @param txf the affine transform with which this node's transform should
     *        be concatenated. Should not be null.
     */
    Rectangle2D getTransformedBounds(AffineTransform txf);

    
Returns the bounds of the area covered by this node's primitive
paint.  This is the painted region of fill and stroke but does
not account for clipping, masking or filtering.
/**
     * Returns the bounds of the area covered by this node's primitive
     * paint.  This is the painted region of fill and stroke but does
     * not account for clipping, masking or filtering.
     */
    Rectangle2D getPrimitiveBounds();

    
Returns the bounds of this node's primitivePaint after applying
the input transform (if any), concatenated with this node's
transform (if any).
Params:
txf – the affine transform with which this node's transform should
       be concatenated. Should not be null./**
     * Returns the bounds of this node's primitivePaint after applying
     * the input transform (if any), concatenated with this node's
     * transform (if any).
     *
     * @param txf the affine transform with which this node's transform should
     *        be concatenated. Should not be null.
     */
    Rectangle2D getTransformedPrimitiveBounds(AffineTransform txf);

    
Returns the bounds of the area covered by this node, without
taking any of its rendering attribute into account. That is,
exclusive of any clipping, masking, filtering or stroking, for
example.
/**
     * Returns the bounds of the area covered by this node, without
     * taking any of its rendering attribute into account. That is,
     * exclusive of any clipping, masking, filtering or stroking, for
     * example.
     */
    Rectangle2D getGeometryBounds();

    
Returns the bounds of the area covered by this node, without
taking any of its rendering attribute into accoun. That is,
exclusive of any clipping, masking, filtering or stroking, for
example. The returned value is transformed by the concatenation
of the input transform and this node's transform.
Params:
txf – the affine transform with which this node's transform should
       be concatenated. Should not be null./**
     * Returns the bounds of the area covered by this node, without
     * taking any of its rendering attribute into accoun. That is,
     * exclusive of any clipping, masking, filtering or stroking, for
     * example. The returned value is transformed by the concatenation
     * of the input transform and this node's transform.
     *
     * @param txf the affine transform with which this node's transform should
     *        be concatenated. Should not be null.
     */
    Rectangle2D getTransformedGeometryBounds(AffineTransform txf);

    
Returns the bounds of the sensitive area covered by this node,
This includes the stroked area but does not include the effects
of clipping, masking or filtering.
/**
     * Returns the bounds of the sensitive area covered by this node,
     * This includes the stroked area but does not include the effects
     * of clipping, masking or filtering.
     */
    Rectangle2D getSensitiveBounds();

    
Returns the bounds of the sensitive area covered by this node,
This includes the stroked area but does not include the effects
of clipping, masking or filtering. The returned value is
transformed by the concatenation of the input transform and
this node's transform.
Params:
txf – the affine transform with which this node's
transform should be concatenated. Should not be null./**
     * Returns the bounds of the sensitive area covered by this node,
     * This includes the stroked area but does not include the effects
     * of clipping, masking or filtering. The returned value is
     * transformed by the concatenation of the input transform and
     * this node's transform.
     *
     * @param txf the affine transform with which this node's
     * transform should be concatenated. Should not be null.
     */
    Rectangle2D getTransformedSensitiveBounds(AffineTransform txf);

    
Returns true if the specified Point2D is inside the boundary of this
node, false otherwise.
Params:
p – the specified Point2D in the user space/**
     * Returns true if the specified Point2D is inside the boundary of this
     * node, false otherwise.
     *
     * @param p the specified Point2D in the user space
     */
    boolean contains(Point2D p);

    
Returns true if the interior of this node intersects the interior of a
specified Rectangle2D, false otherwise.
Params:
r – the specified Rectangle2D in the user node space/**
     * Returns true if the interior of this node intersects the interior of a
     * specified Rectangle2D, false otherwise.
     *
     * @param r the specified Rectangle2D in the user node space
     */
    boolean intersects(Rectangle2D r);

    
Returns the GraphicsNode containing point p if this node or one of its
children is sensitive to mouse events at p.
Params:
p – the specified Point2D in the user space/**
     * Returns the GraphicsNode containing point p if this node or one of its
     * children is sensitive to mouse events at p.
     *
     * @param p the specified Point2D in the user space
     */
    GraphicsNode nodeHitAt(Point2D p);

    
Returns the outline of this node.
/**
     * Returns the outline of this node.
     */
    Shape getOutline();
}