/*
* Artificial Intelligence for Humans
* Volume 2: Nature Inspired Algorithms
* Java Version
* http://www.aifh.org
* http://www.jeffheaton.com
*
* Code repository:
* https://github.com/jeffheaton/aifh
*
* Copyright 2014 by Jeff Heaton
*
* Licensed 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.
*
* For more information on Heaton Research copyrights, licenses
* and trademarks visit:
* http://www.heatonresearch.com/copyright
*/
package com.heatonresearch.aifh.examples.ca.mergelife.viewer;
import com.heatonresearch.aifh.examples.ca.mergelife.physics.MergePhysics;
import com.heatonresearch.aifh.examples.ca.mergelife.physics.Physics;
import com.heatonresearch.aifh.examples.ca.mergelife.universe.Universe;
import com.heatonresearch.aifh.examples.ca.mergelife.universe.UniverseRunner;
import com.heatonresearch.aifh.examples.ca.mergelife.universe.UniverseVisualizer;
import com.heatonresearch.aifh.randomize.GenerateRandom;
import com.heatonresearch.aifh.randomize.MersenneTwisterGenerateRandom;
import java.awt.*;
/**
* Universe display pane.
*/
public class UniversePane {
/**
* The universe rendered.
*/
private Image image;
/**
* The universe runner.
*/
private final UniverseRunner universeRunner;
/**
* The universe visualizer.
*/
private final UniverseVisualizer visualizer;
/**
* A random number generator.
*/
private final GenerateRandom rnd = new MersenneTwisterGenerateRandom();
/**
* The constructor.
*/
public UniversePane() {
final int width = MultiverseViewer.getConfig().getPaneWidth()
/ MultiverseViewer.getConfig().getZoom();
final int height = MultiverseViewer.getConfig().getPaneHeight()
/ MultiverseViewer.getConfig().getZoom();
final Universe universe = new Universe(height, width, 3);
final Physics physics = new MergePhysics(universe);
universe.randomize(rnd);
physics.randomize();
this.universeRunner = new UniverseRunner(universe, physics);
this.visualizer = new UniverseVisualizer(universe,
MultiverseViewer.getConfig().getZoom());
}
/**
* Advance a frame.
*/
public void advance() {
this.universeRunner.advance(this.rnd);
}
/**
* @return The universe image.
*/
public Image getImage() {
return this.image;
}
/**
* @return The universe runner.
*/
public UniverseRunner getUniverseRunner() {
return this.universeRunner;
}
/**
* Visuzlizr the universe.
*/
public void visualize() {
this.image = this.visualizer.visualize();
}
}