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csharp_pain/Solar system/sss3d-source/sss3d/contentbranch/moons/Moon.java
josch 4aa234faa3 initial commit
2014-06-26 17:13:46 +02:00

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/*
File: Moon.java
University of Applied Science Berne,HTA-Biel/Bienne,
Computer Science Department.
Diploma thesis J3D Solar System Simulator
Originally written by Marcel Portner & Bernhard Hari (c) 2000
CVS - Information :
$Header: /var/cvsreps/projects/c450/2000/sss3d/source_diploma/sss3d/contentbranch/moons/Moon.java,v 1.4 2000/12/12 16:18:15 harib Exp $
$Author: harib $
$Date: 2000/12/12 16:18:15 $
$State: Exp $
*/
package sss3d.contentbranch.moons;
import sss3d.contentbranch.*;
import sss3d.utils.SSS3dConstants;
import javax.media.j3d.*;
import javax.vecmath.*;
import com.sun.j3d.utils.geometry.Sphere;
/**
* This class is generate a moon in our solar system.
*
* @author Marcel Portner & Bernhard Hari
* @version $Revision: 1.4 $
*/
public class Moon extends Sphere implements CelestialObject {
// The name of the current moon
private String moon;
private CelestialObjectInfo lnkCelestialObjectInfo;
/**
* Construct a new moon Sphere. The initradius of the Sphere is one meter.
*
* @param pName the name of the current moon.
*/
public Moon(String moon) {
super(INITRADIUS, Sphere.GENERATE_NORMALS |
Sphere.GENERATE_TEXTURE_COORDS, DIVISON);
this.moon = moon;
lnkCelestialObjectInfo = new CelestialObjectInfo(moon, SSS3dConstants.MOON_TYPE);
// Set up the appearance to this Sphere object
this.setAppearance(createAppearance());
}
/**
* Returns a CelestialObjectInfo of the current moon.
* This object has all specific information of the current moon.
*
* @return a CelestialObjectInfo of the current moon.
*/
public CelestialObjectInfo getInfo() {
return lnkCelestialObjectInfo;
}
/**
* Gets the ID of the current moon.
*
* @return the ID of the current moon.
*/
public String getId() {
return moon;
}
/**
* Gets the parent celestial object of the current moon.
*
* @return the name of the parent celestial object.
*/
public String getParentName() {
return lnkCelestialObjectInfo.getParentName();
}
/**
* Gets the radius of the current moon.
*
* @return the radius as a scaled factor of the current moon.
*/
public float getRadius() {
return (float)(lnkCelestialObjectInfo.getDiameter() / SSS3dConstants.SCALE);
}
/**
* Gets the radius of the current moon.
*
* @return the radius as a logarithm factor of the current moon.
*/
public float getLogRadius() {
return (float)(Math.log(lnkCelestialObjectInfo.getDiameter() / 10) / 40);
}
/**
* Gets the degree of the current moon.
*
* @return the degree (<28>) of the current moon.
*/
public double getDegree() {
return (double)lnkCelestialObjectInfo.getInclinationOfEquatorToOrbit();
}
/**
* Gets the rotation speed to the own axis of the current moon.
*
* @return the rotation speed to the own axis in day of the current moon.
* One day correspond to one second in the animation.
*/
public long getRotOwnAxis() {
return (long)(lnkCelestialObjectInfo.getRotationPeriod() * SECOND);
}
/**
* Gets the rotation speed around the planet of the current moon.
*
* @return the rotation speed around the planet in year of the current moon.
* One year correspond to 365.242190 seconds (~6 minute) in the animation.
*/
public long getRotOrbit() {
return (long)(lnkCelestialObjectInfo.getOrbitPeriod() * SECOND);
}
/**
* Set the appearance of this moon (sphere) whith the right
* texture.
*
* @return the Appearance of the moon with his right texture.
*/
private Appearance createAppearance() {
// Ambient-diffuse-reflection coefficient
Color3f diffAmb = new Color3f(1.0f, 1.0f, 1.0f); // white
// Diffuse-reflection coefficient
Color3f reflDiff = new Color3f(1.0f, 1.0f, 1.0f); // white
// Specular-reflection coefficient (reflectance function)
Color3f reflSpec = new Color3f(1.0f, 1.0f, 1.0f); // white
// c = shininess: cos^c in the specular reflection
float c = 1;
// Emitted light
Color3f lumEmise = new Color3f(0.2f, 0.2f, 0.2f); // black
Appearance appearance = new Appearance();
// Set up the optical properties.
appearance.setMaterial(new Material(diffAmb, lumEmise, reflDiff, reflSpec, c));
Texture2D texture = getMoonTexture();
if(texture != null) {
// Set up the texture
appearance.setTexture(texture);
// Application mode of the texture
TextureAttributes texAttr = new TextureAttributes();
texAttr.setTextureMode(TextureAttributes.MODULATE); // there still are: BLEND, DECAL,
// and REPLACE
appearance.setTextureAttributes(texAttr);
}
return appearance;
}
/**
* Returns the texture of the current moon.
*
* @return the texture of the current moon.
*/
private Texture2D getMoonTexture() {
// Loading of the texture
NewTextureLoader newTextureLoader = new NewTextureLoader("images/" + getId() + ".jpg",
NewTextureLoader.GENERATE_MIPMAP);
ImageComponent2D image;
try {
image = newTextureLoader.getImage();
} catch(NullPointerException e) {
return null;
}
int imageWidth = image.getWidth();
int imageHeight = image.getHeight();
Texture2D texture = new Texture2D(Texture.MULTI_LEVEL_MIPMAP, Texture.RGBA,
imageWidth, imageHeight);
int imageLevel = 0;
texture.setImage(imageLevel, image);
while (imageWidth > SMALLEST || imageWidth > SMALLEST) {
imageLevel++;
if (imageWidth > SMALLEST) imageWidth /= 2;
if (imageHeight > SMALLEST) imageHeight /= 2;
image = newTextureLoader.getScaledImage(imageWidth, imageHeight);
texture.setImage(imageLevel, image);
}
texture.setMagFilter(Texture.MULTI_LEVEL_POINT);
texture.setMinFilter(Texture.MULTI_LEVEL_POINT);
return texture;
}
}
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