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SPL(Structured Process Language) A programming language specially for structured data computing.
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package com.scudata.chart;
import java.awt.Color;
import java.awt.image.BufferedImage;
import java.awt.image.DataBufferByte;
import java.awt.image.IndexColorModel;
import java.awt.image.Raster;
import java.awt.image.WritableRaster;
public class Ball {
public int bsize;
public float x, y;
public float Vx = 0.1f;
public float Vy = 0.05f;
public int nImgs = 5;
public BufferedImage imgs[];
public int index = (int) (Math.random() * (nImgs - 1));
private final float inelasticity = .96f;
private final float Ax = 0.0f;
private final float Ay = 0.0002f;
private final float Ar = 0.9f;
private final int UP = 0;
private final int DOWN = 1;
private int indexDirection = UP;
private boolean collision_x, collision_y;
private float jitter;
private Color color;
private boolean isSelected;
public Ball(Color color, int bsize) {
this.color = color;
makeImages(bsize);
}
public void makeImages(int bsize) {
//?뾶????̫??̫??ʱ???????maxrԽ??????255λ
// if( bsize>230 ){//?̶??뾶???????Ч?????ã???䶼???ø?ͼƬȥѹ??????????
bsize = 230;
// }
this.bsize = bsize * 2;
int R = bsize;
byte[] data = new byte[R * 2 * R * 2];
int maxr = 0;
for (int Y = 2 * R; --Y >= 0;) {
int x0 = (int) (Math.sqrt(R * R - (Y - R) * (Y - R)) + 0.5);
int p = Y * (R * 2) + R - x0;
for (int X = -x0; X < x0; X++) {
int x = X + 15;
int y = Y - R + 15;
int r = (int) (Math.sqrt(x * x + y * y) + 0.5);
if (r > maxr) {
maxr = r;
}
data[p++] = r <= 0 ? 1 : (byte) r;
}
}
imgs = new BufferedImage[nImgs];
int bg = 255;
int count = 256;
byte red[] = new byte[count];
red[0] = (byte) bg;
byte green[] = new byte[count];
green[0] = (byte) bg;
byte blue[] = new byte[count];
blue[0] = (byte) bg;
for (int r = 0; r < imgs.length; r++) {
float b = 0.5f + (float) ((r + 1f) / imgs.length / 2f);
for (int i = maxr; i >= 1; --i) {
float d = (float) i / maxr;
int index = i;//(int) (d * 255);
red[index] = (byte) blend(blend(color.getRed(), 255, d), bg, b);
green[index] = (byte) blend(blend(color.getGreen(), 255, d),
bg, b);
blue[index] = (byte) blend(blend(color.getBlue(), 255, d), bg,
b);
}
if (maxr > 255)
maxr = 255;
IndexColorModel icm = new IndexColorModel(8, maxr + 1, red, green,
blue, 0);
DataBufferByte dbb = new DataBufferByte(data, data.length);
int bandOffsets[] = { 0 };
WritableRaster wr = Raster.createInterleavedRaster(dbb, R * 2,
R * 2, R * 2, 1, bandOffsets, null);
imgs[r] = new BufferedImage(icm, wr, icm.isAlphaPremultiplied(),
null);
}
}
private final int blend(int fg, int bg, float fgfactor) {
return (int) (bg + (fg - bg) * fgfactor);
}
public void step(long deltaT, int w, int h) {
collision_x = false;
collision_y = false;
jitter = (float) Math.random() * .01f - .005f;
x += Vx * deltaT + (Ax / 2.0) * deltaT * deltaT;
y += Vy * deltaT + (Ay / 2.0) * deltaT * deltaT;
if (x <= 0.0f) {
x = 0.0f;
Vx = -Vx * inelasticity + jitter;
collision_x = true;
}
if (x + bsize >= w) {
x = w - bsize;
Vx = -Vx * inelasticity + jitter;
collision_x = true;
}
if (y <= 0) {
y = 0;
Vy = -Vy * inelasticity + jitter;
collision_y = true;
}
if (y + bsize >= h) {
y = h - bsize;
Vx *= inelasticity;
Vy = -Vy * inelasticity + jitter;
collision_y = true;
}
Vy = Vy + Ay * deltaT;
Vx = Vx + Ax * deltaT;
if (indexDirection == UP) {
index++;
}
if (indexDirection == DOWN) {
--index;
}
if (index + 1 == nImgs) {
indexDirection = DOWN;
}
if (index == 0) {
indexDirection = UP;
}
}
} // End class Ball