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都是啥子年代了,
还食古不化,
在触摸屏幕用手指划动而产生燃放烟花的虚拟图像效果,
早就被时代彻底底抛弃了!!
现在都启纳是在空中一划,根据手势,根据手势的空间运动,
立即就是实际来真格的,
真实、震撼、空间大爆炸、场面骇人、惊天动地。
无接触,
摒弃虚拟的虚假玩意儿。
你吹一口气,
燃放装置就喷出一股火焰。
机械加工能力和基础强劲的,
产生1米边长见方立体桐游焰火造型,
与产生100米见方焰火造型的设备是通用的。
你与情侣自拍“刷脸”就立即产生肖像燃放造型,
其详细的工程技术细节,
早就有中悄轮没英文对照的文本,
照着去做就可以了,
无需操作机床加工的人员,
去“进一步研究思考”、去开展“创造性的工作”。
c语言编程烟花代码简单如下:
#include "stdlib.h"
#include "graphics.h"
#include "stdio.h"
#include "math.h"
#include "conio.h "
#define PI 3.1425926
main()
{
int gdriver=DETECT,gmode,errorcode;
int a[10],b[10],x,y,c,r,i,j,t;
double rad = 0.0;
/* initialize graphics and local variables */
initgraph(gdriver , gmode ,"竖迹弊"州纯);
/* read result of initialization */
errorcode = graphresult();
if (errorcode != grOk) /* an error occurred */
{
printf("Graphics error : %s/n",grapherrormsg(errorcode));
printf("Please any key to halt:");
getch();
exit(1); /* terminate with an error code */
}
randomize();
for(;!kbhit();)
{
x=rand()%500+100; /*随机中心坐标*/
y=rand()%300+100;
for(r = 0 ;r = 8 ; r++ ) /*烟花的大小设定*/
{
for(i = 0,rad = 0.0 ; rad 2*PI; rad += 0.78 ) /*设余族定坐标*/
{
a[i++] = x + (int)r *10* cos(rad);
b[ i ] = y + (int)r *10* sin(rad);
}
t = i;
for(i=1;it;i++)
{
c=rand()%13+1; /*各点的颜色随机*/
setcolor(c); /*功能:将当前图形屏幕的当前笔画颜色置为color.*/
circle(a[i],b[i],1);/* a[i],b[i] 为圆心 1 为半径 画圆 */
}
delay(10000);
delay(10000);
cleardevice();
函数名: cleardevice
功 能: 清除图形屏幕
用 法: void far cleardevice(void);
}
}
getch();
closegraph();
函数名: closegraph
功 能: 关闭图形系统
用 法: void far closegraph(void);
}
初始化烟花参数
void Init( int i )
{
// 分别为:烟花中心到图片边缘的最远距离、烟花中心到图片左上角的距离 (x、y) 两个分量
int r[13] = { 120, 120, 155, 123, 130, 147, 138, 138, 130, 135, 140, 132, 155 };
int x[13] = { 120, 120, 110, 117, 110, 93, 102, 102, 110, 105, 100, 108, 110 };
int y[13] = { 120, 120, 85, 118, 120, 103, 105, 110, 110, 120, 120, 104, 85 };
/**** 初始化烟花 *****/
Fire[i].x = 0; // 烟花中心坐标
Fire[i].y = 0;
Fire[i].width = 240; // 图片宽
Fire[i].height = 240; // 图片高
Fire[i].max_r = r[i]; // 最大半径
Fire[i].cen_x = x[i]; // 中心距左上角距离
Fire[i].cen_y = y[i];
Fire[i].show = false; // 是否绽放
Fire[i].dt = 5; // 绽放时间间隔
Fire[i].t1 = timeGetTime();
Fire[i].r = 0; // 从 0 开始绽放
/**** 初始化烟花弹 *****/
Jet[i].x = -240; // 烟花弹左上角坐标
Jet[i].y = -240;
Jet[i].hx = -240; // 烟花弹发射最高点坐标
Jet[i].hy = -240;
Jet[i].height = 0; // 发射高度
Jet[i].t1 = timeGetTime();
Jet[i].dt = rand() % 10; // 发射速度时间间隔
Jet[i].n = 0; // 烟花弹闪烁图片下标
Jet[i].shoot = false; // 是否发射
}
烟花代码如下:
package love;
import java.applet.Applet;
import java.awt.Color;
import java.awt.Graphics;
import java点虐 .URL;
import java.util.Random;
烟花
@author enjoy
@SuppressWarnings("serial")
public class Q extends Applet implements Runnable
public int speed, variability, Max_Number, Max_Energy, Max_Patch,
Max_Length, G;
public String sound;
private int width, height;
private Thread thread = null;
private BeaClassDemo bcd[];
public void init()
int i;
this.setSize(1900, 900);
width = getSize().width - 1;
height = getSize().height - 1;
speed = 1; // 烟花备消绽放的速度
variability = 10;
Max_Number = 980; // 可发出烟花的最大数目
Max_Energy = width + 50;
Max_Patch = 90; 仿山知 // 最大的斑点数
Max_Length = 90; 唯睁 // 斑点的最大距离
G = 150; // 向地面弯曲的力度
bcd = new BeaClassDemo[Max_Number];
for (i = 0; i Max_Number; i++)
bcd[i] = new BeaClassDemo(width, height, G);
}
public void start() {
if (thread == null) {
thread = new Thread(this);
thread.start();
}
}
@SuppressWarnings("deprecation")
public void stop() {
if (thread != null) {
thread.stop();
thread = null;
}
}
@SuppressWarnings({ "unused", "static-access" })
public void run() {
int i;
int E = (int) (Math.random() * Max_Energy * 3 / 4) + Max_Energy / 4 + 1;
int P = (int) (Math.random() * Max_Patch * 3 / 4) // 烟花的斑点数
+ Max_Patch / 4 + 1;
int L = (int) (Math.random() * Max_Length * 3 / 4) // 烟花可发射出的距离
+ Max_Length / 4 + 1;
long S = (long) (Math.random() * 10000);
boolean sleep;
Graphics g = getGraphics();
URL u = null;
while (true) {
try {
thread.sleep(1000 / speed);
catch (InterruptedException x) {
sleep = true;
for (i = 0; i Max_Number; i++)
sleep = sleep bcd[i].sleep;
if (sleep Math.random() * 100 variability) {
E = (int) (Math.random() * Max_Energy * 3 / 4) + Max_Energy / 4
+ 1;
P = (int) (Math.random() * Max_Patch * 3 / 4) + Max_Patch / 4
+ 1;
L = (int) (Math.random() * Max_Length * 3 / 4) + Max_Length / 4
+ 1;
S = (long) (Math.random() * 10000);
for (i = 0; i Max_Number; i++) {
if (bcd[i].sleep Math.random() * Max_Number * L 1)
bcd[i].init(E, P, L, S);
bcd[i].start();
bcd[i].show(g);
public void paint(Graphics g)
g.setColor(Color.black);
g.fillRect(0, 0, width + 1, height + 1);
class BeaClassDemo
public boolean sleep = true;
private int energy, patch, length, width, height, G, Xx, Xy, Ex[], Ey[], x,
y, Red, Blue, Green, t;
private Random random;
public BeaClassDemo(int a, int b, int g)
width = a;
height = b;
G = g;
public void init(int e, int p, int l, long seed)
int i;
energy = e;
patch = p;
length = l;
// 创建一个带种子的随机数生成器
random = new Random(seed);
Ex = new int[patch];
Ey = new int[patch];
Red = (int) (random.nextDouble() * 128) + 128;
Blue = (int) (random.nextDouble() * 128) + 128;
Green = (int) (random.nextDouble() * 128) + 128;
Xx = (int) (Math.random() * width / 2) + width / 4;
Xy = (int) (Math.random() * height / 2) + height / 4;
for (i = 0; i patch; i++) {
Ex[i] = (int) (Math.random() * energy) - energy / 2;
Ey[i] = (int) (Math.random() * energy * 7 / 8) - energy / 8;
public void start
t = 0;
sleep = false;
public void show(Graphics g)
if (!sleep)
if (t length)
int i, c;
double s;
Color color;
c = (int) (random.nextDouble() * 64) - 32 + Red;
if (c = 0 c 256)
Red = c;
c = (int) (random.nextDouble() * 64) - 32 + Blue;
if (c = 0 c 256)
Blue = c;
c = (int) (random.nextDouble() * 64) - 32 + Green;
if (c = 0 c 256)
Green = c;
color = new Color(Red, Blue, Green);
for (i = 0; i patch; i++)
s = (double) t / 100;
x = (int) (Ex[i] * s);
y = (int) (Ey[i] * s - G * s * s);
g.setColor(color);
g.drawLine(Xx + x, Xy - y, Xx + x, Xy - y);
if (t = length / 2)
int j;
for (j = 0; j 2; j++)
s = (double) ((t - length / 2) * 2 + j) / 100;
x = (int) (Ex[i] * s);
y = (int) (Ey[i] * s - G * s * s);
g.setColor(Color.black);
g.drawLine(Xx + x, Xy - y, Xx + x, Xy - y);
常用的编程语言。
编程语言一:C语言
C语言是世界上最流行、使用最广泛的高级程序设计语言之一。在操作系统和系统使用程序以及需要对硬件进行操作的场合,用C语言明显优于其它高级语言,许多大型应用软件都是用C语言编写的。
编程语言二:java
Java是一种可以撰写跨平台应用软件的面向对象的程序设计语言,是由Sun Microsystems公司于1995年5月推出的Java程序设计语言和Java平台(即JavaSE, JavaEE, JavaME)的总称。
编程语言三:c++
C++这个词在中国大陆的程序员圈子中通常被读做“C加加”,而西方的程序员通常读做“C plus plus" , "CPP”。 它是一种使用非常广泛的计算机编程语言。C++是一种静态数据类型检查的、支持多重编程范式的通用程序设计语言。
// Decompiled by DJ v2.9.9.60 Copyright 2000 Atanas Neshkov Date: 2003-1-8 9:49:09
// Home Page : - Check often for new version!
// Decompiler options: packimports(3)
//游老 Source File Name: jhanabi.java
import java.applet.Applet;
import java.applet.AudioClip;
import java.awt.*;
import java.awt.image.MemoryImageSource;
import java.util.Random;
public class jhanabi extends Applet
implements Runnable
{
public jhanabi()
{
m_mouseX = 0;
m_mouseY = 0;
m_sleepTime = 5;
isError = false;
isInitialized = false;
rand = new Random();
bits = 10000;
bit_px = new double[bits];
bit_py = new double[bits];
bit_vx = new double[bits];
bit_vy = new double[bits];
bit_sx = new int[bits];
bit_sy = new int[bits];
bit_l = new int[bits];
bit_f = new int[bits];
bit_p = new int[bits];
bit_c = new int[bits];
ru = 50;
rv = 50;
}
public void init()
{
String s = getParameter("裂磨梁para_bits");
if(s != null)
bits = Integer.parseInt(s);
s = getParameter("para_max");
if(s != null)
bit_max = Integer.parseInt(s);
s = getParameter("para_blendx");
if(s != null)
ru = Integer.parseInt(s);
s = getParameter("para_blendy"肆运);
if(s != null)
rv = Integer.parseInt(s);
s = getParameter("para_sound");
if(s != null)
bit_sound = Integer.parseInt(s);
m_nAppX = size().width;
m_nAppY = size().height;
m_centerX = m_nAppX / 2;
m_centerY = m_nAppY / 2;
m_mouseX = m_centerX;
m_mouseY = m_centerY;
resize(m_nAppX, m_nAppY);
pixls = m_nAppX * m_nAppY;
pixls2 = pixls - m_nAppX * 2;
pix0 = new int[pixls];
offImage = new MemoryImageSource(m_nAppX, m_nAppY, pix0, 0, m_nAppX);
offImage.setAnimated(true);
dbImg = createImage(offImage);
for(int i = 0; i pixls; i++)
pix0[i] = 0xff000000;
sound1 = getAudioClip(getDocumentBase(), "firework.au");
sound2 = getAudioClip(getDocumentBase(), "syu.au");
for(int j = 0; j bits; j++)
bit_f[j] = 0;
isInitialized = true;
start();
}
public void run()
{
while(!isInitialized)
try
{
Thread.sleep(200L);
}
catch(InterruptedException interruptedexception) { }
do
{
for(int j = 0; j pixls2; j++)
{
int k = pix0[j];
int l = pix0[j + 1];
int i1 = pix0[j + m_nAppX];
int j1 = pix0[j + m_nAppX + 1];
int i = (k 0xff0000) 16;
int k1 = ((((l 0xff0000) 16) - i) * ru 8) + i;
i = (k 0xff00) 8;
int l1 = ((((l 0xff00) 8) - i) * ru 8) + i;
i = k 0xff;
int i2 = (((l 0xff) - i) * ru 8) + i;
i = (i1 0xff0000) 16;
int j2 = ((((j1 0xff0000) 16) - i) * ru 8) + i;
i = (i1 0xff00) 8;
int k2 = ((((j1 0xff00) 8) - i) * ru 8) + i;
i = i1 0xff;
int l2 = (((j1 0xff) - i) * ru 8) + i;
int i3 = ((j2 - k1) * rv 8) + k1;
int j3 = ((k2 - l1) * rv 8) + l1;
int k3 = ((l2 - i2) * rv 8) + i2;
pix0[j] = i3 16 | j3 8 | k3 | 0xff000000;
}
rend();
offImage.newPixels(0, 0, m_nAppX, m_nAppY);
try
{
Thread.sleep(m_sleepTime);
}
catch(InterruptedException interruptedexception1) { }
} while(true);
}
public void update(Graphics g)
{
paint(g);
}
public void paint(Graphics g)
{
g.drawImage(dbImg, 0, 0, this);
}
public void start()
{
if(isError)
return;
isRunning = true;
if(runner == null)
{
runner = new Thread(this);
runner.start();
}
}
public void stop()
{
if(runner != null)
{
runner.stop();
runner = null;
}
}
public boolean mouseMove(Event event, int i, int j)
{
m_mouseX = i;
m_mouseY = j;
return true;
}
public boolean mouseDown(Event event, int i, int j)
{
m_mouseX = i;
m_mouseY = j;
int k = (int)(rand.nextDouble() * 256D);
int l = (int)(rand.nextDouble() * 256D);
int i1 = (int)(rand.nextDouble() * 256D);
int j1 = k 16 | l 8 | i1 | 0xff000000;
int k1 = 0;
for(int l1 = 0; l1 bits; l1++)
{
if(bit_f[l1] != 0)
continue;
bit_px[l1] = m_mouseX;
bit_py[l1] = m_mouseY;
double d = rand.nextDouble() * 6.2800000000000002D;
double d1 = rand.nextDouble();
bit_vx[l1] = Math.sin(d) * d1;
bit_vy[l1] = Math.cos(d) * d1;
bit_l[l1] = (int)(rand.nextDouble() * 100D) + 100;
bit_p[l1] = (int)(rand.nextDouble() * 3D);
bit_c[l1] = j1;
bit_sx[l1] = m_mouseX;
bit_sy[l1] = m_nAppY - 5;
bit_f[l1] = 2;
if(++k1 == bit_max)
break;
}
if(bit_sound 1)
sound2.play();
return true;
}
public boolean mouseExit(Event event, int i, int j)
{
m_mouseX = i;
m_mouseY = j;
return true;
}
void rend()
{
boolean flag = false;
boolean flag1 = false;
boolean flag2 = false;
for(int k = 0; k bits; k++)
switch(bit_f[k])
{
default:
break;
case 1: // '\001'
bit_vy[k] += rand.nextDouble() / 50D;
bit_px[k] += bit_vx[k];
bit_py[k] += bit_vy[k];
bit_l[k]--;
if(bit_l[k] == 0 || bit_px[k] 0.0D || bit_py[k] 0.0D || bit_px[k] (double)m_nAppX || bit_py[k] (double)(m_nAppY - 3))
{
bit_c[k] = 0xff000000;
bit_f[k] = 0;
} else
if(bit_p[k] == 0)
{
if((int)(rand.nextDouble() * 2D) == 0)
bit_set((int)bit_px[k], (int)bit_py[k], -1);
} else
{
bit_set((int)bit_px[k], (int)bit_py[k], bit_c[k]);
}
break;
case 2: // '\002'
bit_sy[k] -= 5;
if((double)bit_sy[k] = bit_py[k])
{
bit_f[k] = 1;
flag2 = true;
}
if((int)(rand.nextDouble() * 20D) == 0)
{
int i = (int)(rand.nextDouble() * 2D);
int j = (int)(rand.nextDouble() * 5D);
bit_set(bit_sx[k] + i, bit_sy[k] + j, -1);
}
break;
}
if(flag2 bit_sound 0)
sound1.play();
}
void bit_set(int i, int j, int k)
{
int l = i + j * m_nAppX;
pix0[l] = k;
}
private int m_nAppX;
private int m_nAppY;
private int m_centerX;
private int m_centerY;
private int m_mouseX;
private int m_mouseY;
private int m_sleepTime;
private boolean isError;
private boolean m_isPaintFinished;
boolean isRunning;
boolean isInitialized;
Thread runner;
int pix0[];
MemoryImageSource offImage;
Image dbImg;
int pixls;
int pixls2;
Random rand;
int bits;
double bit_px[];
double bit_py[];
double bit_vx[];
double bit_vy[];
int bit_sx[];
int bit_sy[];
int bit_l[];
int bit_f[];
int bit_p[];
int bit_c[];
int bit_max;
int bit_sound;
int ru;
int rv;
AudioClip sound1;
AudioClip sound2;
}