#include <reg52.h>
#define uchar unsigned char
#define uint unsigned int
sbit ds=P2^4; //温度传感器信号线
sbit beep=P2^3;//蜂鸣器
sbit re=P2^2; //热释电
sbit gm=P2^7;//光敏
sbit s0=P1^3;//智能
sbit s1=P3^0;//功能键
sbit s2=P3^1;//增加键
sbit s3=P3^4;//减小键
sbit s4=P3^5;//闹钟查看键
sbit s5=P3^6;//调光
sbit s6=P3^2;//显示温度
sbit rs=P1^0; //
sbit lcden=P1^2; // 液晶
sbit wr=P1^1; //
sbit led1=P2^0;
sbit led2=P2^1; //led
sbit led3=P2^5;
sbit led4=P2^6;
sbit rd=P3^7;
sbit dscs=P1^7;
sbit dsas=P1^6;
sbit dsrw=P1^5; //时钟芯片
sbit dsds=P1^4;
sbit dsirq=P3^3;
uint temp;
float f_temp;
uchar s5num=0,s0num=0,s6num=0;
uchar flag1=0,flag_ri;//定义两个位变量
uchar count,s1num,flag=0,t0_num;//其它变量定义
ucharmiao,shi,fen,year,month,day,week,amiao,afen,ashi;
uchar code table[]=" 20 - - ";//液晶固定显示内容
uchar code table1[]=" : : ";
uchar codetable2[]="WELCOME!";
void write_ds(uchar,uchar);//函数申明
void set_alarm(uchar,uchar,uchar);voidread_alarm();
uchar read_ds(uchar);void set_time();
/************************************************/
/*led*/
void led(uchar x)
{
switch(x)
{
case 0: led1=1;led2=0;led3=1;led4=0;break;
case 1: led1=0;led2=0;led3=1;led4=0; break;
case 3: led1=0;led2=0;led3=0;led4=1; break;
case 2: led1=1;led2=1;led3=0;led4=0; break;
case 4: led1=0;led2=1;led3=0;led4=1; break;
}
}
/***************************************************/
void delay(uint z)//延时函数
{
uintx,y;
for(x=z;x>0;x--)
for(y=110;y>0;y--);
}
void di() //蜂鸣器报警声音
{
beep=0;
delay(100);
beep=1;
}
void write_com(uchar com)
{//写液晶命令函数
rs=0;
lcden=0;
P0=com;
delay(3);
lcden=1;
delay(3);
lcden=0;
}
void write_date(uchar date)
{//写液晶数据函数
rs=1;
lcden=0;
P0=date;
delay(3);
lcden=1;
delay(3);
lcden=0;
}
void init()
{//初始化函数
uchari;
EA=1;//打开总中断
EX0=1;//开外部中断1
IT0=1;//设置负跳变沿触发中断
EX1=1;//开外部中断1
IT1=1;//设置负跳变沿触发中断
flag1=0;//变量初始化
t0_num=0;
s1num=0;
week=1;
lcden=0;
rd=0;
/*以下几行在首次设置DS12C887时使用,以后不必再写入
write_ds(0x0A,0x20);//打开振荡器
write_ds(0x0B,0x26);//设置24小时模式,数据二进制格式
//开启闹铃中断
set_time();//设置上电默认时间
-----------------------------------------------------*/
write_com(0x38);//1602液晶初始化
write_com(0x0c);
write_com(0x06);
write_com(0x01);
write_com(0x80);
for(i=0;i<15;i++)//写入液晶固定部分显示
{
write_date(table);
delay(1);
}
write_com(0x80+0x40);
for(i=0;i<16;i++)
{
write_date(table1);
delay(1);
}
}
void write_sfm(uchar add,char date)
{//1602液晶刷新时分秒函数4为时,7为分,10为秒
charshi,ge;
shi=date/10;
ge=date%10;
write_com(0x80+0x40+add);
write_date(0x30+shi);
write_date(0x30+ge);
}
void write_nyr(uchar add,char date)
{//1602液晶刷新年月日函数3为年,6为分,9为秒
charshi,ge;
shi=date/10;
ge=date%10;
write_com(0x80+add);
write_date(0x30+shi);
write_date(0x30+ge);
}
void write_week(char we)
{//写液晶星期显示函数
write_com(0x80+12);
switch(we)
{
case 1: write_date('M');delay(5);
write_date('O');delay(5);
write_date('N');
break;
case 2: write_date('T');delay(5);
write_date('U');delay(5);
write_date('E');
break;
case 3: write_date('W');delay(5);
write_date('E');delay(5);
write_date('D');
break;
case 4: write_date('T');delay(5);
write_date('H');delay(5);
write_date('U');
break;
case 5: write_date('F');delay(5);
write_date('R');delay(5);
write_date('I');
break;
case 6: write_date('S');delay(5);
write_date('A');delay(5);
write_date('T');
break;
case 7: write_date('S');delay(5);
write_date('U');delay(5);
write_date('N');
break;
}
}
void keyscan()
{
if(flag_ri==1)
{//这里用来取消闹钟报警,任一键取消报警
if((s1==0)||(s2==0)||(s3==0)||(s4==0))
{
delay(5);
if((s1==0)||(s2==0)||(s3==0)||(s4==0))
{
while(!(s1&&s2&&s3&&s4));
di();
flag_ri=0;//清除报警标志
}
}
}
if(s1==0)//检测S1
{
delay(10);
if(s1==0)
{
s1num++;//记录按下次数
if(flag1==1)
if(s1num==4)
s1num=1;
flag=1;
while(!s1);di();
switch(s1num)
{//光标闪烁点定位
case 1: write_com(0x80+0x40+10);
write_com(0x0f);
break;
case 2: write_com(0x80+0x40+7);
break;
case 3: write_com(0x80+0x40+4);
break;
case 4: write_com(0x80+12);
break;
case 5: write_com(0x80+9);
break;
case 6: write_com(0x80+6);
break;
case 7: write_com(0x80+3);
break;
case 8: s1num=0;
write_com(0x0c);
flag=0;
write_ds(0,miao);
write_ds(2,fen);
write_ds(4,shi);
write_ds(6,week);
write_ds(7,day);
write_ds(8,month);
write_ds(9,year);
break;
}
}
}
if(s1num!=0)//只有当S1按下后,才检测S2和S3
{
if(s2==0)
{
delay(10);
if(s2==0)
{
while(!s2);di();
switch(s1num)
{//根据功能键次数调节相应数值
case1: miao++;
if(miao==60)
miao=0;
write_sfm(10,miao);
write_com(0x80+0x40+10);
break;
case2: fen++;
if(fen==60)
fen=0;
write_sfm(7,fen);
write_com(0x80+0x40+7);
break;
case3: shi++;
if(shi==24)
shi=0;
write_sfm(4,shi);
write_com(0x80+0x40+4);
break;
case4: week++;
if(week==8)
week=1;
write_week(week);
write_com(0x80+12);
break;
case5: day++;
if(day==32)
day=1;
write_nyr(9,day);
write_com(0x80+9);
break;
case6: month++;
if(month==13)
month=1;
write_nyr(6,month);
write_com(0x80+6);
break;
case7: year++;
if(year==100)
year=0;
write_nyr(3,year);
write_com(0x80+3);
break;
}
}
}
if(s3==0)
{
delay(10);
if(s3==0)
{
while(!s3);di();
switch(s1num)
{//根据功能键次数调节相应数值
case1: miao--;
if(miao==-1)
miao=59;
write_sfm(10,miao);
write_com(0x80+0x40+10);
break;
case2: fen--;
if(fen==-1)
fen=59;
write_sfm(7,fen);
write_com(0x80+0x40+7);
break;
case3: shi--;
if(shi==-1)
shi=23;
write_sfm(4,shi);
write_com(0x80+0x40+4);
break;
case4: week--;
if(week==0)
week=7;
write_week(week);
write_com(0x80+12);
break;
case5: day--;
if(day==0)
day=31;
write_nyr(9,day);
write_com(0x80+9);
break;
case6: month--;
if(month==0)
month=12;
write_nyr(6,month);
write_com(0x80+6);
break;
case7: year--;
if(year==-1)
year=99;
write_nyr(3,year);
write_com(0x80+3);
break;
}
}
}
}
if(s4==0)//检测S4
{
delay(10);
if(s4==0)
{
flag1=~flag1;
while(!s4);di();
if(flag1==0)
{//退出闹钟设置时保存数值
flag=0;
write_com(0x80+0x40);
write_date(' ');
write_date(' ');
write_com(0x0c);
write_ds(1,miao);
write_ds(3,fen);
write_ds(5,shi);
}
else
{//进入闹钟设置
read_alarm();//读取原始数据
miao=amiao;//重新赋值用以按键调节
fen=afen;
shi=ashi;
write_com(0x80+0x40);
write_date('R');//显示标志
write_date('i');
write_com(0x80+0x40+3);
write_sfm(4,ashi);//送液晶显示闹钟时间
write_sfm(7,afen);
write_sfm(10,amiao);
}
}
}
if(s0==0)
{
delay(10);
if(s0==0)
{
di();
s0num++;
if(s0num==2)
s0num=0;
}
}
if(s5==0)
{
delay(10);
if(s5==0)
{
di();
s5num++;
if(s5num==5)
s5num=0;
led(s5num);
delay(10);
}
while(!s5);
delay(10);
while(!s5);
}
}
void write_ds(uchar add,uchar date)
{//写12C887函数
dscs=0;
dsas=1;
dsds=1;
dsrw=1;
P0=add;//先写地址
dsas=0;
dsrw=0;
P0=date;//再写数据
dsrw=1;
dsas=1;
dscs=1;
}
uchar read_ds(uchar add)
{//读12C887函数
uchar ds_date;
dsas=1;
dsds=1;
dsrw=1;
dscs=0;
P0=add;//先写地址
dsas=0;
dsds=0;
P0=0xff;
ds_date=P0;//再读数据
dsds=1;
dsas=1;
dscs=1;
returnds_date;
}
/*---首次操作12C887时给予寄存器初始化---
void set_time()
{//首次上电初始化时间函数
write_ds(0,0);
write_ds(1,0);
write_ds(2,28);
write_ds(3,0);
write_ds(4,4);
write_ds(5,0);
write_ds(6,7);
write_ds(7,10);
write_ds(8,5);
write_ds(9,15);
}
----------------------------------------*/
void read_alarm()
{//读取12C887闹钟值
amiao=read_ds(1);
afen=read_ds(3);
ashi=read_ds(5);
}
/***********ds18b20**********/
void dsreset(void) //18B20复位,初始化函数
{
uint i;
ds=0;
i=103;
while(i>0)i--;
ds=1;
i=4;
while(i>0)i--;
}
bit tempreadbit(void) //读1位函数
{
uint i;
bit dat;
ds=0;i++; //i++ 起延时作用
ds=1;i++;i++;
dat=ds;
i=8;while(i>0)i--;
return (dat);
}
uchar tempread(void) //读1个字节
{
uchar i,j,dat;
dat=0;
for(i=1;i<=8;i++)
{
j=tempreadbit();
dat=(j<<7)|(dat>>1); //读出的数据最低位在最前面,这样刚好一个字节在DAT里
}
return(dat);
}
void tempwritebyte(uchar dat) //向18B20写一个字节数据
{
uint i;
uchar j;
bit testb;
for(j=1;j<=8;j++)
{
testb=dat&0x01;
dat=dat>>1;
if(testb) //写 1
{
ds=0;
i++;i++;
ds=1;
i=8;while(i>0)i--;
}
else
{
ds=0; //写 0
i=8;while(i>0)i--;
ds=1;
i++;i++;
}
}
}
void tempchange(void) //DS18B20 开始获取温度并转换
{
dsreset();
delay(1);
tempwritebyte(0xcc); // 写跳过读ROM指令
tempwritebyte(0x44); // 写温度转换指令
}
uint get_temp() //读取寄存器中存储的温度数据
{
uchar a,b;
dsreset();
delay(1);
tempwritebyte(0xcc);
tempwritebyte(0xbe);
a=tempread(); //读低8位
b=tempread(); //读高8位
temp=b;
temp<<=8; //两个字节组合为1个字
temp=temp|a;
f_temp=temp*0.0625; //温度在寄存器中为12位 分辨率位0.0625°
temp=f_temp*10+0.5; //乘以10表示小数点后面只取1位,加0.5是四舍五入
f_temp=f_temp+0.05;
return temp; //temp是整型
}
////////////////////显示程序//////////////////////////
void dis_temp(uint t)
{
uchar a,b;
write_com(0x80+0x40);
a=t/100;
if(a==0) b='0';
if(a==1) b='1';
if(a==2) b='2';
if(a==3) b='3';
if(a==4) b='4';
if(a==5) b='5';
if(a==6) b='6';
if(a==7) b='7';
if(a==8) b='8';
if(a==9) b='9';
write_date(b);
delay(5);
a=t%100/10;
if(a==0) b='0';
if(a==1) b='1';
if(a==2) b='2';
if(a==3) b='3';
if(a==4) b='4';
if(a==5) b='5';
if(a==6) b='6';
if(a==7) b='7';
if(a==8) b='8';
if(a==9) b='9';
write_date(b);
delay(5);
write_date(0x2e);
delay(5);
a=t%100%10;
if(a==0) b='0';
if(a==1) b='1';
if(a==2) b='2';
if(a==3) b='3';
if(a==4) b='4';
if(a==5) b='5';
if(a==6) b='6';
if(a==7) b='7';
if(a==8) b='8';
if(a==9) b='9';
write_date(b);
delay(5);
write_date(0xdf);
delay(5);
write_date(0x43);
delay(5);
}
/************************************************/
/*智能*/
void re200b()
{
if(s0num==1)
{
if(re==1 && gm==1)
{
if(s5num==0)
{
s5num=1;
}
}
if(re==0||gm==0)
{
s5num=0;
}
led(s5num);
}
if(s0num==0)
{
led(s5num);
}
}
void main()//主函数
{
uchari;
wr=0;
init();
led(0);
write_com(0x01);
for (i=0;i<8;i++)
{
write_date(table2);
delay(20);
}
delay(4000);
init();
while(1)
{
keyscan();//按键扫描
re200b();
if(flag_ri==1)//当闹钟中断时进入这里
{
di();
delay(100);
di();
delay(500);
}
if(flag==0&&flag1==0)//正常工作时进入这里
{
keyscan();//按键扫描
year=read_ds(9);//读取12C887数据
month=read_ds(8);
day=read_ds(7);
week=read_ds(6);
shi=read_ds(4);
fen=read_ds(2);
miao=read_ds(0);
write_sfm(10,miao);//送液晶显示
write_sfm(7,fen);
write_sfm(4,shi);
write_week(week);
write_nyr(3,year);
write_nyr(6,month);
write_nyr(9,day);
}
}
}
void exter() interrupt 2//外部中断1服务程序
{ ucharc; //进入中断表示闹钟时间到,
flag_ri=1;//设置标志位,用以大程序中报警提示
c=read_ds(0x0c);//读取12C887的C寄存器表示响应了中断
}
void wendu() interrupt 0//外部中断0服务程序
{
uchari;
di();
for(i=0;i<4;i++)
{
write_com(0x01);
tempchange();
dis_temp(get_temp());
delay(700);
}
write_com(0x01);
for(i=0;i<15;i++)//写入液晶固定部分显示
{
write_date(table);
delay(1);
}
write_com(0x80+0x40);
for(i=0;i<16;i++)
{
write_date(table1);
delay(1);
}
} |
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