protues画可以仿真元件

main.c
#include "os_cfg.h"
#include "task0.h"
#include "task1.h"
#include "task2.h"
#include "task3.h"void (* code task[])() = {task0,task1,task2,task3};
void main(void)
{
 uchar i; 
 os_timer0_init();
 os_timer1_init();
 EA = 1; //开总中断
 while(1)
 {
 for(i=0;i<MAX_TASK;i++) 
 if (task_delay[i]==0) {run(task[i]); break;} //任务优先级调度 
 }
} 
os_cfg.h
#include "reg52.h"
#include "macroandconst.h"
#define TIME_PER_SEC 200 //定义任务时钟频率，200Hz
#define CLOCK 22118400 //定义时钟晶振，单位Hz
#define MAX_TASK 4 //定义任务数量
extern unsigned char task_delay[MAX_TASK];
extern void run(void (*ptask)());
extern void os_timer0_init(void);
extern void os_timer1_init(void); 
macroandconst.h
#ifndef _MACRO_AND_CONST_H_ 
#define _MACRO_AND_CONST_H_ typedef unsigned int uint16; 
typedef unsigned int UINT; 
typedef unsigned int uint; 
typedef unsigned int UINT16; 
typedef unsigned int WORD; 
typedef unsigned int word; 
typedef int int16; 
typedef int INT16; 
typedef unsigned long uint32; typedef unsigned long UINT32; 
typedef unsigned long DWORD; 
typedef unsigned long dword; 
typedef long int32; 
typedef long INT32; 
typedef signed char int8; 
typedef signed char INT8; 
typedef unsigned char byte; 
typedef unsigned char BYTE; 
typedef unsigned char uchar; 
typedef unsigned char UINT8; 
typedef unsigned char uint8; 
typedef unsigned char BOOL; #endif 
 
task0.h
#ifndef _TASK0_H_
#define _TASK0_H_extern void task0(unsigned int db);
#endif
 
task1.h
#ifndef _TASK1_H_
#define _TASK1_H_#define ADC0804_DB P1
extern void task1(void);#endif
 
task2.h
#ifndef _TASK2_H_
#define _TASK2_H_extern void task2(void);
#endif
 
task3.h
#ifndef _TASK3_H_
#define _TASK3_H_extern void task3(void);
#endif
 
os_c.c
#include "os_cfg.h"
#include "task1.h"uchar task_delay[MAX_TASK];
uchar data_buffer;//定时器0初始化
void os_timer0_init(void)
{
 uchar i;
 for(i=0;i<MAX_TASK;i++) task_delay[i]=0; //赋初值task_delay[0]=0，task_delay[1]=0，task_delay[2]=0，task_delay[3]=0 
 TMOD = (TMOD & 0XF0) | 0X01; //定时器0工作在模式1，16Bit定时器模式 
 TH0 = (65536-CLOCK/TIME_PER_SEC/12) / 256; //CRY_OSC,TIME_PER_SEC在easycfg.h中配置
 TL0 = (65536-CLOCK/TIME_PER_SEC/12) % 256; 
 TR0 =1; 
 ET0 =1; //开启定时器和中断
}//定时器1初始化
void os_timer1_init(void)
{
 SCON = 0x50;//串行口工作方式1，REN=1允许接受串行数据
 PCON = 0; //电源控制寄存器 SMOD=0，波特率保持不变
 TMOD = 0x20; //定时器T1初始化,工作方式2
 TH1 = 0xFD; //产生波特率为9600bit/s的计数初值
 TL1 = 0xFD; 
 TR1 = 1; 
 ES = 1; //允许串口中断
}// 系统OS定时中断服务
void os_timer0(void) interrupt 1
{
 uchar i;
 TH0 = (65536-CLOCK/TIME_PER_SEC/12) / 256; //CRY_OSC,TIME_PER_SEC在easycfg.h中配置
 TL0 = (65536-CLOCK/TIME_PER_SEC/12) % 256; 
 for(i=0;i<MAX_TASK;i++) if(task_delay[i]) task_delay[i]--; //每节拍对任务延时变量减1 ，减至 0 后，任务就绪。 
} void os_timer1(void) interrupt 4
{
 SBUF = ADC0804_DB;
 while(!TI); //等待发送完成
 TI = 0; //清零发送标志位
 if(RI) //RI接收中断标志位
 {
 RI=0;
 SBUF = data_buffer;//发送数据
 data_buffer = SBUF;//读取数据 
 } 

// if(TI) //TI发送中断标志位
// {
// TI=0;
// } 
} void run(void (*ptask)())
{ 
 (*ptask)(); 
} 
task0.c
#include "os_cfg.h"
#include "delay.h"#define TASK_DELAY0 TIME_PER_SEC/40 //数码管频度为40Hz
/*---------共阴极0~f数码管编码 ----------*/
uchar code table[]={0x3f,0x06,0x5b,0x4f,0x66,
 0x6d,0x7d,0x07,0x7f,0x6f};void task0(uint db)
{ 
 /*为什么位选放在段选前面就不行了呢？*/
 uchar bw,sw,gw; //bw,sw,gw分别等于db百位，十位，个位上的数
 db=db*100/50;
 bw=db/100;
 sw=db%100/10;
 gw=db%10; P2=0xfe; //点亮第一只数码管
 P0=table[bw]|0x80; //最高位置0，点亮第一只数码管的小数点，
 delay(1); P2=0xfd; //点亮第二只数码管
 P0=table[sw];
 delay(1); P2=0xfb; //点亮第三只数码管
 P0=table[gw];
 delay(1); 

 P2=0xf7; //点亮第四只数码管
 P0=table[0]; //第四只数码管一直显示0
 delay(1);  task_delay[0] = TASK_DELAY0;
} 
task1.c
#include "os_cfg.h"
#include "delay.h"
#include "intrins.h"
#include "task0.h"
#include "task1.h"//static uchar i;
sbit wr=P3^6;
sbit rd=P3^7;
#define TASK_DELAY1 TIME_PER_SEC/41 //任务执行频度为60Hzvoid task1(void)
{ 
 wr=0; //在片选信号CS为低电平情况下（由于CS接地，所以始终为低电平），
 _nop_(); //WR由低电平到高电平时，即上升沿时，AD开始采样转换
 wr=1;
 delay(1); //延时1ms,等待采样转换结束,延时函数 delay(1)延时0.992ms,大约为1ms 
 //P1=0xff; //这条语句不能少，我也还不知道为什么 
 rd=0; //将RD脚置低电平后，再延时大于135ns左右（这里延时1us），
 _nop_(); //即可从DB脚读出有效的采样结果,传送到P1口
 //for(i=0;i<10;i++) //刷新显示一段时间
 task0(ADC0804_DB); //显示从ADC0804的DB得到的数字量  task_delay[1] = TASK_DELAY1;
} 
task2.c
#include "os_cfg.h"
#define TASK_DELAY2 TIME_PER_SEC/10 //任务执行频度为10Hz
void task2(void)
{ 
// SBUF = dat; //待发送的数据写入缓冲区
// while(!TI); //等待发送完成
// TI = 0; //清零发送标志位

 task_delay[2] = TASK_DELAY2;
} 
task3.c
#include "os_cfg.h"
#define TASK_DELAY3 TIME_PER_SEC/20 //任务执行频度为20Hz
void task3(void)
{ 

 task_delay[3] = TASK_DELAY3; 
} 
delay.h
#ifndef _DELAY_H_
#define _DELAY_H_extern void delay(unsigned int x); 
#endif 
 
delay.c
 
#include <reg52.h>
#include "macroandconst.h"static uchar i;
void delay(uint x) //延时函数 delay(1)延时0.992ms,大约为1ms
{

 while(x--)
 for(i=0;i<120;i++); 
}