1.用C++编写的源码小游戏源代码
2.ç¨delphiå计ç®å¨
3.大家帮我看看这段JS代码是什么意思?
4.Linux进程和线程的基础与管理
5.请问哪位有模拟退火遗传算法的源程序?
用C++编写的小游戏源代码
五子棋的代码:#include<iostream>
#include<stdio.h>
#include<stdlib.h>
#include <time.h>
using namespace std;
const int N=; //*的棋盘
const char ChessBoardflag = ' '; //棋盘标志
const char flag1='o'; //玩家1或电脑的棋子标志
const char flag2='X'; //玩家2的棋子标志
typedef struct Coordinate //坐标类
{
int x; //代表行
int y; //代表列
}Coordinate;
class GoBang //五子棋类
{
public:
GoBang() //初始化
{
InitChessBoard();
}
void Play() //下棋
{
Coordinate Pos1; // 玩家1或电脑
Coordinate Pos2; //玩家2
int n = 0;
while (1)
{
int mode = ChoiceMode();
while (1)
{
if (mode == 1) //电脑vs玩家
{
ComputerChess(Pos1,flag1); // 电脑下棋
if (GetVictory(Pos1, 0, flag1) == 1) //0表示电脑,真表示获胜
break;
PlayChess(Pos2, 2, flag2); //玩家2下棋
if (GetVictory(Pos2, 2, flag2)) //2表示玩家2
break;
}
else //玩家1vs玩家2
{
PlayChess(Pos1, 1, flag1); // 玩家1下棋
if (GetVictory(Pos1, 1, flag1)) //1表示玩家1
break;
PlayChess(Pos2, 2, flag2); //玩家2下棋
if (GetVictory(Pos2, 2, flag2)) //2表示玩家2
break;
}
}
cout << "***再来一局***" << endl;
cout << "y or n :";
char c = 'y';
cin >> c;
if (c == 'n')
break;
}
}
protected:
int ChoiceMode() //选择模式
{
int i = 0;
system("cls"); //系统调用,清屏
InitChessBoard(); //重新初始化棋盘
cout << "***0、源码退出 1、源码电脑vs玩家 2、源码玩家vs玩家***" << endl;
while (1)
{
cout << "请选择:";
cin >> i;
if (i == 0) //选择0退出
exit(1);
if (i == 1 || i == 2)
return i;
cout << "输入不合法" << endl;
}
}
void InitChessBoard() //初始化棋盘
{
for (int i = 0; i < N + 1; ++i)
{
for (int j = 0; j < N + 1; ++j)
{
_ChessBoard[i][j] = ChessBoardflag;
}
}
}
void PrintChessBoard() //打印棋盘,源码这个函数可以自己调整
{
system("cls"); //系统调用,源码macd指标源码最准清空屏幕
for (int i = 0; i < N+1; ++i)
{
for (int j = 0; j < N+1; ++j)
{
if (i == 0) //打印列数字
{
if (j!=0)
printf("%d ",源码 j);
else
printf(" ");
}
else if (j == 0) //打印行数字
printf("%2d ", i);
else
{
if (i < N+1)
{
printf("%c |",_ChessBoard[i][j]);
}
}
}
cout << endl;
cout << " ";
for (int m = 0; m < N; m++)
{
printf("--|");
}
cout << endl;
}
}
void PlayChess(Coordinate& pos, int player, int flag) //玩家下棋
{
PrintChessBoard(); //打印棋盘
while (1)
{
printf("玩家%d输入坐标:", player);
cin >> pos.x >> pos.y;
if (JudgeValue(pos) == 1) //坐标合法
break;
cout << "坐标不合法,重新输入" << endl;
}
_ChessBoard[pos.x][pos.y] = flag;
}
void ComputerChess(Coordinate& pos,源码 char flag) //电脑下棋
{
PrintChessBoard(); //打印棋盘
int x = 0;
int y = 0;
while (1)
{
x = (rand() % N) + 1; //产生1~N的随机数
srand((unsigned int) time(NULL));
y = (rand() % N) + 1; //产生1~N的随机数
srand((unsigned int) time(NULL));
if (_ChessBoard[x][y] == ChessBoardflag) //如果这个位置是空的,也就是源码没有棋子
break;
}
pos.x = x;
pos.y = y;
_ChessBoard[pos.x][pos.y] = flag;
}
int JudgeValue(const Coordinate& pos) //判断输入坐标是不是合法
{
if (pos.x > 0 && pos.x <= N&&pos.y > 0 && pos.y <= N)
{
if (_ChessBoard[pos.x][pos.y] == ChessBoardflag)
{
return 1; //合法
}
}
return 0; //非法
}
int JudgeVictory(Coordinate pos, char flag) //判断有没有人胜负(底层判断)
{
int begin = 0;
int end = 0;
int begin1 = 0;
int end1 = 0;
//判断行是否满足条件
(pos.y - 4) > 0 ? begin = (pos.y - 4) : begin = 1;
(pos.y + 4) >N ? end = N : end = (pos.y + 4);
for (int i = pos.x, j = begin; j + 4 <= end; j++)
{
if (_ChessBoard[i][j] == flag&&_ChessBoard[i][j + 1] == flag&&
_ChessBoard[i][j + 2] == flag&&_ChessBoard[i][j + 3] == flag&&
_ChessBoard[i][j + 4] == flag)
return 1;
}
//判断列是否满足条件
(pos.x - 4) > 0 ? begin = (pos.x - 4) : begin = 1;
(pos.x + 4) > N ? end = N : end = (pos.x + 4);
for (int j = pos.y, i = begin; i + 4 <= end; i++)
{
if (_ChessBoard[i][j] == flag&&_ChessBoard[i + 1][j] == flag&&
_ChessBoard[i + 2][j] == flag&&_ChessBoard[i + 3][j] == flag&&
_ChessBoard[i + 4][j] == flag)
return 1;
}
int len = 0;
//判断主对角线是否满足条件
pos.x > pos.y ? len = pos.y - 1 : len = pos.x - 1;
if (len > 4)
len = 4;
begin = pos.x - len; //横坐标的起始位置
begin1 = pos.y - len; //纵坐标的起始位置
pos.x > pos.y ? len = (N - pos.x) : len = (N - pos.y);
if (len>4)
len = 4;
end = pos.x + len; //横坐标的结束位置
end1 = pos.y + len; //纵坐标的结束位置
for (int i = begin, j = begin1; (i + 4 <= end) && (j + 4 <= end1); ++i, ++j)
{
if (_ChessBoard[i][j] == flag&&_ChessBoard[i + 1][j + 1] == flag&&
_ChessBoard[i + 2][j + 2] == flag&&_ChessBoard[i + 3][j + 3] == flag&&
_ChessBoard[i + 4][j + 4] == flag)
return 1;
}
//判断副对角线是否满足条件
(pos.x - 1) >(N - pos.y) ? len = (N - pos.y) : len = pos.x - 1;
if (len > 4)
len = 4;
begin = pos.x - len; //横坐标的起始位置
begin1 = pos.y + len; //纵坐标的起始位置
(N - pos.x) > (pos.y - 1) ? len = (pos.y - 1) : len = (N - pos.x);
if (len>4)
len = 4;
end = pos.x + len; //横坐标的结束位置
end1 = pos.y - len; //纵坐标的结束位置
for (int i = begin, j = begin1; (i + 4 <= end) && (j - 4 >= end1); ++i, --j)
{
if (_ChessBoard[i][j] == flag&&_ChessBoard[i + 1][j - 1] == flag&&
_ChessBoard[i + 2][j - 2] == flag&&_ChessBoard[i + 3][j - 3] == flag&&
_ChessBoard[i + 4][j - 4] == flag)
return 1;
}
for (int i = 1; i < N + 1; ++i) //棋盘有没有下满
{
for (int j =1; j < N + 1; ++j)
{
if (_ChessBoard[i][j] == ChessBoardflag)
return 0; //0表示棋盘没满
}
}
return -1; //和棋
}
bool GetVictory(Coordinate& pos, int player, int flag) //对JudgeVictory的一层封装,得到具体那个玩家获胜
{
int n = JudgeVictory(pos,源码 flag); //判断有没有人获胜
if (n != 0) //有人获胜,0表示没有人获胜
{
PrintChessBoard();
if (n == 1) //有玩家赢棋
{
if (player == 0) //0表示电脑获胜,源码1表示玩家1,源码2表示玩家2
printf("***电脑获胜***\n");
else
printf("***恭喜玩家%d获胜***\n", player);
}
else
printf("***双方和棋***\n");
return true; //已经有人获胜
}
return false; //没有人获胜
}
private:
char _ChessBoard[N+1][N+1];
};
扩展资料:
设计思路
1、进行问题分析与设计,源码ceph源码安装包计划实现的源码功能为,开局选择人机或双人对战,源码确定之后比赛开始。
2、比赛结束后初始化棋盘,询问是js聊天室源码否继续比赛或退出,后续可加入复盘、悔棋等功能。
3、整个过程中,涉及到了棋子和棋盘两种对象,同时要加上人机对弈时的双线压力支撑指标源码AI对象,即涉及到三个对象。
ç¨delphiå计ç®å¨
è¿æ¯æºä»£ç ï¼
unit Unit1;
interface
uses
Windows, Messages, SysUtils, Variants, Classes, Graphics, Controls, Forms,
Dialogs, Buttons, StdCtrls, ExtCtrls;
type
TForm1 = class(TForm)
Panel1: TPanel;
Panel2: TPanel;
SpeedButton7: TSpeedButton;
SpeedButton8: TSpeedButton;
SpeedButton9: TSpeedButton;
SpeedButton: TSpeedButton;
SpeedButton4: TSpeedButton;
SpeedButton5: TSpeedButton;
SpeedButton6: TSpeedButton;
SpeedButton: TSpeedButton;
SpeedButton1: TSpeedButton;
SpeedButton2: TSpeedButton;
SpeedButton3: TSpeedButton;
SpeedButton: TSpeedButton;
SpeedButton: TSpeedButton;
SpeedButton: TSpeedButton;
SpeedButton: TSpeedButton;
StaticText1: TStaticText;
SpeedButton0: TSpeedButton;
SpeedButton: TSpeedButton;
SpeedButton: TSpeedButton;
GroupBox1: TGroupBox;
procedure SpeedButton1Click(Sender: TObject);
procedure FormCreate(Sender: TObject);
procedure SpeedButtonClick(Sender: TObject);
procedure SpeedButtonClick(Sender: TObject);
procedure SpeedButtonClick(Sender: TObject);
procedure SpeedButtonClick(Sender: TObject);
private
{ Private declarations }
public
{ Public declarations }
end;
var
Form1: TForm1;
restart: Boolean;
isfirst: Boolean;
fir_num,sec_num: String;
sign: integer;
result: real;
save: String;
implementation
{ $R *.dfm}
function count(sign: integer):real;
begin
case sign of
1: result:=strtofloat(fir_num)+strtofloat(sec_num); //为å å·æ¶
2: result:=strtofloat(fir_num)-strtofloat(sec_num); //为åå·æ¶
3: result:=strtofloat(fir_num)*strtofloat(sec_num); //为ä¹å·æ¶
4: begin
try
result:=strtofloat(fir_num)/strtofloat(sec_num); //为é¤å·æ¶
except
ShowMessage('é误!');
form1.close;
end; //é¤æ°ä¸º0æ¶,ååºå¼å¸¸å¤ç
end;
end;
end;
procedure TForm1.SpeedButton1Click(Sender: TObject);
var
i: integer;
begin
if restart then //å¦ææ¯éæ°å¼å§è¾å ¥,åæ¸ é¤åæ¥çæä½æ°,并设置isfirst为True
begin
isfirst:=True;
fir_num:='';
sec_num:='';
restart:=False;
end;
if isfirst then //å¦ææ¯ç¬¬ä¸ä¸ªæä½æ°
begin
if (sender as TSpeedButton).Caption='.' then //å¦æè¾å ¥çæ¯å°æ°ç¹
begin
if (strlen(pChar(fir_num))<=0) then //å¦æ第ä¸ä¸ªæä½æ°å¹¶æªè¾å ¥
fir_num:='0.'
else
for i:= 1 to strlen(pChar(fir_num)) do
if fir_num[i]='.' then exit;
//å¦æ第ä¸ä¸ªä¸å·²å«æå°æ°ç¹èåè¾å ¥å°æ°ç¹,åéåº
end;
if (strlen(pChar(fir_num))>0) and (fir_num[1]='0') then //å¦ææé«ä½ä¸º0
begin
if ((sender as TSpeedButton).Caption='.') then
fir_num:='0.'
else
begin
if strlen(pChar(fir_num))>1 then //å¦ææ¯å°æ°,å继ç»è¾å ¥
fir_num:=fir_num+(sender as TSpeedButton).Caption
else
fir_num:=(sender as TSpeedButton).Caption;
//å¦æä¸æ¯å°æ°,åå»ææé«ä½ç0
end;
end
else
fir_num:=fir_num+(sender as TSpeedButton).Caption;
StaticText1.Caption:=fir_num;
end
else
begin
if (sender as TSpeedButton).Caption='.' then //å¦æ第äºä¸ªæä½æ°å¹¶æªè¾å ¥
begin
if (strlen(pChar(sec_num))<=0) then
sec_num:='0.'
else
for i:= 1 to strlen(pChar(sec_num)) do
if sec_num[i]='.' then exit;
//å¦æ第äºä¸ªä¸å·²å«æå°æ°ç¹èåè¾å ¥å°æ°ç¹,åéåº
end;
if (strlen(pChar(sec_num))>0) and (sec_num[1]='0') then //å¦ææé«ä½ä¸º0
begin
if ((sender as TSpeedButton).Caption='.') then
sec_num:='0.'
else
begin
if strlen(pChar(sec_num))>1 then //å¦ææ¯å°æ°,å继ç»è¾å ¥
sec_num:=sec_num+(sender as TSpeedButton).Caption
else
sec_num:=(sender as TSpeedButton).Caption;
//å¦æä¸æ¯å°æ°,åå»ææé«ä½ç0
end;
end
else
sec_num:=sec_num+(sender as TSpeedButton).Caption;
StaticText1.Caption:=sec_num;
end;
end;
procedure TForm1.FormCreate(Sender: TObject);
begin
StaticText1.Caption:='0.'; //设置StaticText1åå§æ¾ç¤ºä¸º0.
restart:=False;
Isfirst:=True;
fir_num:='';
sec_num:='';
end;
procedure TForm1.SpeedButtonClick(Sender: TObject);
begin
if (fir_num<>'') and (sec_num<>'') then
//å¦æ两åæä½æ°é½ä¸ä¸ºç©º
begin
result:=count(sign); //è°ç¨å½æ°,è¿å计ç®ç»æ
fir_num:=floattostr(result);
sec_num:='';
StaticText1.Caption:=floattostr(result);
end;
sign:=(sender as TSpeedButton).Tag;
isfirst:=False;
restart:=False;
end;
procedure TForm1.SpeedButtonClick(Sender: TObject);
begin
if (sec_num<>'') then
//å¦æ第äºä¸ªæä½æ°ä¸ä¸ºç©ºåè¿åç»æ
begin
result:=count(sign);
fir_num:='';
fir_num:=fir_num+floattostr(result);
StaticText1.Caption:=floattostr(result);
sec_num:='';
end;
restart:=true;
end;
procedure TForm1.SpeedButtonClick(Sender: TObject);
begin
restart:=True;
fir_num:='';
sec_num:='';
self.StaticText1.Caption:='0.';
end;
procedure TForm1.SpeedButtonClick(Sender: TObject);
begin
Close;
end;
end.
大家帮我看看这段JS代码是什么意思?
总的来说是一段每隔2秒切换一下选项卡的js特效代码
1.自动切换:
每2秒通过调用aa()动态改变选项卡的索引,再用foucs(c,i,str)函数改变选项卡标签(focus_tab_)和相对应的内容(focus_con_)的class属性来实现(class ="on"就显示该标签和内容,class=""就隐藏该标签和内容)
2.手动切换:
最后面的(for (i=1;i<6;i++)这一段是为5个选择卡的标签和内容容器,初始化鼠标事件
3.很遗憾你这个自动切换的js特效不会起作用
aa()函数里面这一句:foucs(start,'2','foucs');把foucs(c,i,str)中的i定死为字符变量"2"了(它本该是for循环中1-5中的一个整数,是变化的,而你这却把i当作个一个字符变量来传送),所以,你这个自动切换的,切换不了,易语言dump保存源码永远显示的是索引为的2那个选项卡,搞不好还会报错。
Linux进程和线程的基础与管理
一.进程的基本概念程序是为了完成某种任务而设计的软件,比如vi是程序。什么是进程呢? 进程就是运行中的程序。一个运行着程序,可能有多个进程。比如Web服务器是Apache服务器,当管理员启动服务后,可能会有好多人来访问,也就是说许多用户同时请求
//随机初始种群
//编码方式为格雷码
//选择方法为随机遍历
//采用了精英保存策略
//采用了自适应的交叉率和变异率
//采用了与模拟退火算法相结合的尺度变换
//采用了均匀交叉法
#include <stdlib.h>
#include <stdio.h>
#include <math.h>
#include <iostream.h>
#include <iomanip.h>
#include <time.h>
#include <windows.h>
#define IM1
#define IM2
#define AM (1.0/IM1)
#define IMM1 (IM1-1)
#define IA1
#define IA2
#define IQ1
#define IQ2
#define IR1
#define IR2
#define NTAB
#define NDIV (1+IMM1/NTAB)
#define EPS 1.2e-7
#define RNMX (1.0-EPS)
#define zhizhenjuli 0.
#define PI 3.
#define T0 //温度要取得很高才行。
#define zhongqunshu1
#define zuobianjie -
#define youbianjie
unsigned int seed=0; //seed 为种子,要设为全局变量
void mysrand(long int i) //初始化种子
{
seed = -i;
}
long a[1];
//double hundun;
//double c=4;
//设置全局变量
struct individual
{
unsigned *chrom; //染色体;
double geti;//变量值
double shiyingdu; //目标函数的值;
double fitness; //变换后的适应度值;
};
individual *zuiyougeti;//精英保存策略
int zhongqunshu; //种群大小
individual *nowpop;//当前代
individual *newpop;//新一代
double sumfitness;//当代的总适应度fitness
double sumshiyingdu;//当代的总适应度shiyingdu
double maxfitness;//最大适应度
double avefitness;//平均适应度
double maxshiyingdu;//最大适应度
double avgshiyingdu;//平均适应度
float pc;//交叉概率
float pm;//变异概率
int lchrom;//染色体长度
int maxgen;//最大遗传代数
int gen;//遗传代数
//函数
int flipc(double ,double );//判断是否交叉
int flipm(double );//判断是否变异
int rnd(int low,int high);//产生low与high之间的任意数
void initialize();//遗传算法初始化
void preselectfitness(); //计算sumfiness,avefitness,maxfitness
void generation();
double suijibianli();//产生随机遍历指针
int fuzhi(float );//选择要复制的个体
void crossover(individual ,individual ,individual &,individual &);//交叉
void bianyi(individual &);//变异
void mubiaohanshu(individual &);//计算适应度
void chidubianhuan(individual &);//对shiyingdu进行尺度变换赋给fitness
double ran1(long *);//随机数初始
void bianma(double bianliang,unsigned *p);//编码
double yima(unsigned *p);
void guanjiancanshujisuan();//计算shiyingdu,根据shiyingdu计算sumshiyingdu,对shiyingdu进行尺度变换变成fitness,根据fitness计算sumfitness,avefitness,maxfitness
void jingyingbaoliu();
void glp(int n,int s,int *,int (*)[1],float (*)[1]);//glp生成函数
BOOL Exist(int Val, int Num, int *Array);//判断一个数在前面是否出现过
int cmpfitness(const void *p1,const void *p2)
{
float i=((individual *)p1)->shiyingdu;//现在是按照"适应度"排序,改成"个体"的话就是按照"个体"排序
float j=((individual *)p2)->shiyingdu;
return i<j ? -1:(i==j ? 0:1);//现在是按升序牌排列,将1和-1互换后就是按降序排列
}
void main()
{
initialize();
cout<<zuiyougeti->geti<<" "<<zuiyougeti->shiyingdu<<endl;/////////////
for(gen=1;gen<maxgen;gen++)
{ generation();
}
jingyingbaoliu();
cout<<setiosflags(ios::fixed)<<setprecision(6)<<zuiyougeti->geti<<" "<<setiosflags(ios::fixed)<<setprecision(6)<<(zuiyougeti->shiyingdu)<<endl;////////////////
delete [] newpop;
delete [] nowpop;
delete [] zuiyougeti;
system("pause");
}
void initialize()
{
int q[zhongqunshu1][1],s=1;
float xx[zhongqunshu1][1];//生成的glp用x储存
int h[1]={ 1};//生成向量
zuiyougeti=new individual;//最优个体的生成
zhongqunshu=;//种群数量
nowpop=new individual[zhongqunshu1];//当代
newpop=new individual[zhongqunshu1];//新一代
maxgen=;//最大代数
gen=0;//起始代
lchrom=;//基因数量的初始化
mysrand(time(0));//随机数种子
a[0]=seed;//随机数种子
//对最优个体的初始化
zuiyougeti->geti=0;
zuiyougeti->fitness=0;
zuiyougeti->shiyingdu=0;
//
glp(zhongqunshu,s,h,q,xx);
//for(int i=0;i<zhongqunshu1;i++)//产生初始种群
//{
// for(int j=0;j<s;j++)
// {
// nowpop[i].geti=zuobianjie+(youbianjie-zuobianjie)*xx[i][j];
// }
//}
for(int i=0;i<zhongqunshu1;i++)//产生初始种群
{
nowpop[i].geti=zuobianjie+(youbianjie-(zuobianjie))*ran1(a);
}
//nowpop[0].geti=;//////////////////////////
guanjiancanshujisuan();
jingyingbaoliu(); //精英保留的实现
guanjiancanshujisuan();//计算shiyingdu,根据shiyingdu计算sumshiyingdu,对shiyingdu进行尺度变换变成fitness,根据fitness计算sumfitness,avefitness,maxfitness
}
void jingyingbaoliu() //精英保留的实现
{
individual *zuiyougetiguodu;
zuiyougetiguodu=new individual[zhongqunshu1];//建立一个过渡数组
for(int i=0;i<zhongqunshu;i++)//将当代个体复制到过渡数组中
zuiyougetiguodu[i]=nowpop[i];
qsort(zuiyougetiguodu,zhongqunshu1,sizeof(individual),&cmpfitness);//按fitness升序排序
// cout<<"zuiyougetiguodu适应度:"<<zuiyougetiguodu[zhongqunshu1-1].shiyingdu<<endl;///////////
// cout<<"zuiyougeti适应度:"<<zuiyougeti->shiyingdu<<endl;///////////////////
//system("pause");
if(zuiyougetiguodu[zhongqunshu-1].shiyingdu>zuiyougeti->shiyingdu)
{
*zuiyougeti=zuiyougetiguodu[zhongqunshu1-1];//如果最优个体的fitness比当代最大的fitness小则用当代的代替之
//cout<<"zuiyougetiguodu个体:"<<zuiyougetiguodu[zhongqunshu1-1].geti<<endl;/////////////
//cout<<"zuiyougeti个体:"<<zuiyougeti->geti<<endl;/////////////
}
else
nowpop[rnd(0,(zhongqunshu1-1))]=*zuiyougeti;//否则的话从当代中随机挑选一个用最优个体代替之
delete [] zuiyougetiguodu;//释放过渡数组
}
void guanjiancanshujisuan()//计算shiyingdu,根据shiyingdu计算sumshiyingdu,对shiyingdu进行尺度变换变成fitness,根据fitness计算sumfitness,avefitness,maxfitness
{
for(int i=0;i<zhongqunshu;i++)//计算shiyingdu
mubiaohanshu(nowpop[i]);
for(i=0;i<zhongqunshu;i++)//对shiyingdu进行尺度变换变成fitness
chidubianhuan(nowpop[i]);
preselectfitness();//根据fitness计算sumfitness,avefitness,maxfitness
}
void mubiaohanshu(individual &bianliang)//计算shiyingdu
{
bianliang.shiyingdu=(bianliang.geti*cos(bianliang.geti)+2.0);//目标函数
}
void chidubianhuan(individual &bianliang)//对shiyingdu进行尺度变换变成fitness
{
double T;//退火温度
T=T0*(pow(0.,(gen+1-1)));
double sum=0;
for(int j=0;j<zhongqunshu;j++)
sum+=exp(nowpop[j].shiyingdu/T);
bianliang.fitness=exp(bianliang.shiyingdu/T)/sum;//算出fitness
}
void preselectfitness()//根据fitness计算sumfitness,avefitness,maxfitness
{
int j;
sumfitness=0;
for(j=0;j<zhongqunshu;j++)
sumfitness+=nowpop[j].fitness;
individual *guodu;
guodu=new individual[zhongqunshu1];
for(j=0;j<zhongqunshu;j++)
guodu[j]=nowpop[j];
qsort(guodu,zhongqunshu1,sizeof(individual),&cmpfitness);
maxfitness=guodu[zhongqunshu1-1].fitness;
avefitness=sumfitness/zhongqunshu1;
delete [] guodu;
}
void generation()
{
individual fuqin1,fuqin2,*pipeiguodu,*pipeichi;
int *peiduishuzu;//用来存放产生的随机配对
pipeiguodu=new individual[zhongqunshu1];
pipeichi=new individual[zhongqunshu1];
peiduishuzu=new int[zhongqunshu1];
int member1,member2,j=0,fuzhijishu=0,i=0,temp=0,tt=0;
float zhizhen;
//随机遍历的实现
for(zhizhen=suijibianli();zhizhen<1;(zhizhen=zhizhen+zhizhenjuli))//设定指针1/
{
pipeichi[fuzhijishu]=nowpop[fuzhi(zhizhen)];
fuzhijishu++;
}
//交叉与变异的实现
//交叉
for(i=0;i<zhongqunshu1;i++)
{
peiduishuzu[i]=-1;
}
for (i=0; i<zhongqunshu1; i++)
{
temp =rnd(0,zhongqunshu1-1); //产生值在0-zhongqunshu1-1的随机数
while(Exist(temp, i, peiduishuzu))//判断产生的随机数是否已经产生过,如果是,则再产生一个随机数
{
temp =rnd(0,zhongqunshu1-1);
}
//如果没有的话,则把产生的随机数放在peiduishuzu中
*(peiduishuzu+i) = temp;
}
for(i=0;i<zhongqunshu1-1;i=i+2)
{
fuqin1=pipeichi[peiduishuzu[i]];
fuqin2=pipeichi[peiduishuzu[i+1]];
crossover(fuqin1,fuqin2,newpop[i],newpop[i+1]);
}
for(j=0;j<zhongqunshu1;j++)
{
//if(newpop[j].geti<-)
//cout<<"个体数值小于下界了";
nowpop[j].geti=newpop[j].geti;
}
//
guanjiancanshujisuan();
//变异的实现
for(j=0;j<zhongqunshu;j++)
{
bianyi(nowpop[j]);
}
//
guanjiancanshujisuan();
//精英保留的实现
jingyingbaoliu();
//
guanjiancanshujisuan();
delete [] peiduishuzu;
delete [] pipeichi;
delete [] pipeiguodu;
}
void crossover(individual parent1,individual parent2,individual &child1,individual &child2)//交叉
{
int j;
unsigned *panduan;
panduan=new unsigned[lchrom];
parent1.chrom=new unsigned[lchrom];
parent2.chrom=new unsigned[lchrom];
child1.chrom=new unsigned[lchrom];
child2.chrom=new unsigned[lchrom];
//cout<<"jiaocha"<<endl;///////////////////////
bianma(parent1.geti,parent1.chrom);
bianma(parent2.geti,parent2.chrom);
if(flipc(parent1.fitness,parent2.fitness))
{
for(j=0;j<lchrom;j++)
panduan[j]=rnd(0,1);
//for(j=0;j<lchrom;j++)////////////////
// {
// cout<<panduan[j];/////////////
// }
// cout<<endl;////////////////
// system("pause");////////////////
for(j=0;j<lchrom;j++)
{
if(panduan[j]==1)
child1.chrom[j]=parent1.chrom[j];
else
child1.chrom[j]=parent2.chrom[j];
}
for(j=0;j<lchrom;j++)
{
if(panduan[j]==0)
child2.chrom[j]=parent1.chrom[j];
else
child2.chrom[j]=parent2.chrom[j];
}
//for(j=0;j<lchrom;j++)////////////////
//{
// cout<<child1.chrom[j];/////////////
// }
//cout<<endl;////////////////
// system("pause");////////////////
child1.geti=yima(child1.chrom);
child2.geti=yima(child2.chrom);
delete [] child2.chrom;
delete [] child1.chrom;
delete [] parent2.chrom;
delete [] parent1.chrom;
delete [] panduan;
}
else
{
for(j=0;j<lchrom;j++)
{
child1.chrom[j]=parent1.chrom[j];
child2.chrom[j]=parent2.chrom[j];
}
child1.geti=yima(child1.chrom);
child2.geti=yima(child2.chrom);
delete [] child2.chrom;
delete [] child1.chrom;
delete [] parent2.chrom;
delete [] parent1.chrom;
delete [] panduan;
}
}
void bianyi(individual &child)//变异
{
child.chrom=new unsigned[lchrom];
//cout<<"变异"<<endl;
bianma(child.geti,child.chrom);
for(int i=0;i<lchrom;i++)
if(flipm(child.fitness))
{
if(child.chrom[i]=0)
child.chrom[i]=1;
else
child.chrom[i]=0;
}
child.geti=yima(child.chrom);
delete [] child.chrom;
}
void bianma(double bianliang,unsigned *p)//编码
{
unsigned *q;
unsigned *gray;
q=new unsigned[lchrom];
gray=new unsigned[lchrom];
int x=0;
int i=0,j=0;
if(bianliang<zuobianjie)///////////////////
{
cout<<"bianliang:"<<bianliang<<endl;/////////
system("pause");
}
//cout<<youbianjie-(zuobianjie)<<endl;
//system("pause");
x=(bianliang-(zuobianjie))*((pow(2,lchrom)-1)/(youbianjie-(zuobianjie)));
//cout<<x<<endl;///////////
if(x<0)
system("pause");///////////
for(i=0;i<lchrom;i++)
{
q[i]=0;
p[i]=0;
}
i=0;
while (x!=0&&(i!=lchrom))
{
q[i]=(unsigned)(x%2);
x=x/2;
i++;
}
// for(i=0;i<lchrom;i++)//////////////////
// cout<<q[i];///////////////
// cout<<endl;///////////
int w=lchrom-1;
if(q[w]!=0&&q[w]!=1)
system("pause");
for(j=0;j<lchrom&&w>0;j++)
{
p[j]=q[w];
w--;
}
//cout<<"yuanma"<<endl;
//for(j=0;j<lchrom;j++)///////////
// cout<<p[j];////////
//cout<<endl;////////////////////
gray[0]=p[0];
for(j=1;j<lchrom;j++)
{
if(p[j-1]==p[j])
gray[j]=0;
else if(p[j-1]!=p[j])
gray[j]=1;
}
for(j=0;j<lchrom;j++)
p[j]=gray[j];
//cout<<"geleima"<<endl;
//for(j=0;j<lchrom;j++)///////////
// cout<<p[j];////////
//cout<<endl;////////////////////
//system("pause");///////////
delete [] gray;
delete [] q;
}
double yima(unsigned *p) //译码
{
int i=0;
// for(i=0;i<lchrom;i++)/////////
// {
// cout<<p[i];//////
// }
// cout<<endl;/////////
// system("pause");//////////
int x=0;
unsigned *q;
q=new unsigned[lchrom];
q[0]=p[0];
// cout<<q[0]<<endl;//////////////////
// system("pause");//////////
for(int j=1;j<lchrom;j++)
{
if(q[j-1]==p[j])
q[j]=0;
else if(q[j-1]!=p[j])
q[j]=1;
}
// for(i=0;i<lchrom;i++)//////
// {
// cout<<q[i];//////////
// if(q[i]!=0&&q[i]!=1)
// {
// cout<<q[i];
// system("pause");
// }
// }
// cout<<endl;////////
// system("pause");///////////////////
for(i=0;i<lchrom;i++)
x=x+q[i]*pow(2,(lchrom-i-1));
if(x<0)
{
cout<<"译码出错1"<<endl;
system("pause");
}
//cout<<"x:"<<x<<endl;
double bianliang;
//cout<<pow(2,)<<endl;
//cout<<*x<<endl;
//cout<<(x*(/(pow(2,)-1)))<<endl;
bianliang=(x*((youbianjie-(zuobianjie))/(pow(2,lchrom)-1)))+zuobianjie;
if(bianliang<zuobianjie)
{
cout<<"译码出错2"<<endl;
system("pause");
}
delete [] q;
return bianliang;
}
double ran1(long *idum)
{
int j;
long k;
static long idum2=;
static long iy=0;
static long iv[NTAB];
float temp;
if (*idum <= 0)
{
if (-(*idum) < 1) *idum=1;
else *idum = -(*idum);
idum2=(*idum);
for (j=NTAB+7;j>=0;j--)
{
k=(*idum)/IQ1;
*idum=IA1*(*idum-k*IQ1)-k*IR1;
if (*idum < 0) *idum += IM1;
if (j < NTAB) iv[j] = *idum;
}
iy=iv[0];
}
k=(*idum)/IQ1;
*idum=IA1*(*idum-k*IQ1)-k*IR1;
if (*idum < 0) *idum += IM1;
k=idum2/IQ2;
idum2=IA2*(idum2-k*IQ2)-k*IR2;
if (idum2 < 0) idum2 += IM2;
j=iy/NDIV;
iy=iv[j]-idum2;
iv[j] = *idum;
if (iy < 1) iy += IMM1;
if ((temp=AM*iy) > RNMX) return RNMX;
else return temp;
}
double suijibianli()//随机遍历
{
double i=ran1(a);
while(i>zhizhenjuli)
{
i=ran1(a);
}
//cout<<i<<endl;//////////////
return i;
}
int fuzhi(float p)//复制
{
int i;
double sum=0;
if(sumfitness!=0)
{
for(i=0;(sum<p)&&(i<zhongqunshu);i++)
sum+=nowpop[i].fitness/sumfitness;
}
else
i=rnd(1,zhongqunshu1);
return(i-1);
}
int rnd(int low, int high) /*在整数low和high之间产生一个随机整数*/
{
int i;
if(low >= high)
i = low;
else
{
i =(int)((ran1(a) * (high - low + 1)) + low);
if(i > high) i = high;
}
return(i);
}
int flipc(double p,double q)//判断是否交叉
{
double pc1=0.9,pc2=0.6;
if((p-q)>0)
{
if(p>=avefitness)
{
pc=pc1-(pc1-pc2)*(p-avefitness)/(maxfitness-avefitness);
}
else
pc=pc1;
}
else
{
if(q>=avefitness)
{
pc=pc1-(pc1-pc2)*(q-avefitness)/(maxfitness-avefitness);
}
else
pc=pc1;
}
if(ran1(a)<=pc)
return(1);
else
return(0);
}
int flipm(double p)//判断是否变异
{
double pm1=0.,pm2=0.;
if(p>=avefitness)
{
pm=(pm1-(pm1-pm2)*(maxfitness-p)/(maxfitness-avefitness));
}
else
pm=pm1;
if(ran1(a)<=pm)
return(1);
else
return(0);
}
void glp(int n,int s,int *h,int (*q)[1],float (*xx)[1])//glp
{
int i=0,j=0;
//求解q
for(i=0;i<n;i++)
{
for(j=0;j<s;j++)
{
*(*(q+i)+j)=((i+1)*(*(h+j)))%n;
}
}
i=n-1;
for(j=0;j<s;j++)
{
*(*(q+i)+j)=n;
}
//求解x
for(i=0;i<n;i++)
{
for(j=0;j<s;j++)
{
*(*(xx+i)+j)=(float)(2*(*(*(q+i)+j))-1)/(2*n);
}
}
}
BOOL Exist(int Val, int Num, int *Array)//判断一个数是否在一个数组的前Num个数中
{
BOOL FLAG = FALSE;
int i;
for (i=0; i<Num; i++)
if (Val == *(Array + i))
{
FLAG = TRUE;
break;
}
return FLAG;
}