51爱心流水灯32灯炫酷代码_32心形灯代码免费-程序员宅基地
源代码摘自@远眺883的文章,大佬是30个灯的,感兴趣的铁汁们可以去看看哦~(已取得原作者的许可):基于STC89C51单片机设计的心形流水灯软件代码部分_单片机流水灯代码_远眺883的博客-程序员宅基地
由于博主是个小菜鸡,所以有些地方改的不好的请多多包容。
修改方面:
调整了开头单个灯的旋转,并加快了旋转速度,并用appear函数无缝衔接后面的呼吸灯,中间基本没有什么太大的改动,个人觉得时间上比较长,于是缩短了循环的次数,最后的部分也稍微换了一下。
效果:
爱心流水灯(32灯)
源代码分享:
#include <REGX52.H>
#include <Intrins.h>
//LED灯引脚,延逆时针定义
sbit LED1=P0^0; sbit LED2=P0^1; sbit LED3=P0^2; sbit LED4=P0^3; sbit LED5=P0^4; sbit LED6=P0^5; sbit LED7=P0^6; sbit LED8=P0^7;
sbit LED24=P2^7; sbit LED23=P2^6; sbit LED22=P2^5; sbit LED21=P2^4; sbit LED20=P2^3; sbit LED19=P2^2; sbit LED18=P2^1;
sbit LED17=P2^0; sbit LED32=P3^7;sbit LED31=P3^6;sbit LED30=P3^5; sbit LED29=P3^4; sbit LED28=P3^3; sbit LED27=P3^2; sbit LED26=P3^1; sbit LED25=P3^0;
sbit LED16=P1^7; sbit LED15=P1^6; sbit LED14=P1^5; sbit LED13=P1^4; sbit LED12=P1^3; sbit LED11=P1^2; sbit LED10=P1^1; sbit LED9=P1^0;
int time = 0; //控制呼吸灯亮灯时间
int mode = 0; //呼吸灯模式(渐亮到渐暗)
int i, j; //循环变量
//10us延时函数
void Delay(int us) //@12.000MHz
{
while(us--)
{
unsigned char i;
_nop_();
i = 2;
while (--i);
}
}
//全开
void turn_on(void)
{
LED9=1; LED10=1; LED11=1; LED12=1; LED13=1; LED14=1; LED15=1; LED16=1;
LED25=1; LED26=1; LED27=1; LED28=1; LED29=1; LED30=1;LED31=1;LED32=1;
LED17=1; LED18=1; LED19=1; LED20=1; LED21=1; LED22=1; LED23=1; LED24=1;
LED8=1; LED7=1; LED6=1; LED5=1; LED4=1; LED3=1; LED2=1; LED1=1;
}
//全关
void turn_off(void)
{
LED9=0; LED10=0; LED11=0; LED12=0; LED13=0; LED14=0; LED15=0; LED16=0;
LED25=0; LED26=0; LED27=0; LED28=0; LED29=0; LED30=0;LED31=0;LED32=0;
LED17=0; LED18=0; LED19=0; LED20=0; LED21=0; LED22=0; LED23=0; LED24=0;
LED8=0; LED7=0; LED6=0; LED5=0; LED4=0; LED3=0; LED2=0; LED1=0;
}
//流水灯
void run_LED(void)
{
//顺时针流水灯
for(i = 0; i < 1; i++)
{
LED9=1; Delay(2000);
LED10=1; Delay(2000);
LED11=1; Delay(2000);
LED12=1; Delay(2000);
LED13=1; Delay(2000);
LED14=1; Delay(2000);
LED15=1; Delay(2000);
LED16=1; Delay(2000);
LED25=1; Delay(2000);
LED26=1; Delay(2000);
LED27=1; Delay(2000);
LED28=1; Delay(2000);
LED29=1; Delay(2000);
LED30=1; Delay(2000);
LED31=1; Delay(2000);
LED32=1; Delay(2000);
LED17=1; Delay(2000);
LED18=1; Delay(2000);
LED19=1; Delay(2000);
LED20=1; Delay(2000);
LED21=1; Delay(2000);
LED22=1; Delay(2000);
LED23=1; Delay(2000);
LED24=1; Delay(2000);
LED8=1; Delay(2000);
LED7=1; Delay(2000);
LED6=1; Delay(2000);
LED5=1; Delay(2000);
LED4=1; Delay(2000);
LED3=1; Delay(2000);
LED2=1; Delay(2000);
LED1=1; Delay(2000);
LED9=0; Delay(2000);
LED10=0; Delay(2000);
LED11=0; Delay(2000);
LED12=0; Delay(2000);
LED13=0; Delay(2000);
LED14=0; Delay(2000);
LED15=0; Delay(2000);
LED16=0; Delay(2000);
LED25=0; Delay(2000);
LED26=0; Delay(2000);
LED27=0; Delay(2000);
LED28=0; Delay(2000);
LED29=0; Delay(2000);
LED30=0; Delay(2000);
LED31=0; Delay(2000);
LED32=0; Delay(2000);
LED17=0; Delay(2000);
LED18=0; Delay(2000);
LED19=0; Delay(2000);
LED20=0; Delay(2000);
LED21=0; Delay(2000);
LED22=0; Delay(2000);
LED23=0; Delay(2000);
LED24=0; Delay(2000);
LED8=0; Delay(2000);
LED7=0; Delay(2000);
LED6=0; Delay(2000);
LED5=0; Delay(2000);
LED4=0; Delay(2000);
LED3=0; Delay(2000);
LED2=0; Delay(2000);
LED1=0; Delay(2000);
}
//逆时针流水灯
for(i = 0; i < 1; i++)
{
LED1=1; Delay(2000);
LED2=1; Delay(2000);
LED3=1; Delay(2000);
LED4=1; Delay(2000);
LED5=1; Delay(2000);
LED6=1; Delay(2000);
LED7=1; Delay(2000);
LED8=1; Delay(2000);
LED24=1; Delay(2000);
LED23=1; Delay(2000);
LED22=1; Delay(2000);
LED21=1; Delay(2000);
LED20=1; Delay(2000);
LED19=1; Delay(2000);
LED18=1; Delay(2000);
LED17=1; Delay(2000);
LED32=1; Delay(2000);
LED31=1; Delay(2000);
LED30=1; Delay(2000);
LED29=1; Delay(2000);
LED28=1; Delay(2000);
LED27=1; Delay(2000);
LED26=1; Delay(2000);
LED25=1; Delay(2000);
LED16=1; Delay(2000);
LED15=1; Delay(2000);
LED14=1; Delay(2000);
LED13=1; Delay(2000);
LED12=1; Delay(2000);
LED11=1; Delay(2000);
LED10=1; Delay(2000);
LED9=1; Delay(2000);
LED1=0; Delay(2000);
LED2=0; Delay(2000);
LED3=0; Delay(2000);
LED4=0; Delay(2000);
LED5=0; Delay(2000);
LED6=0; Delay(2000);
LED7=0; Delay(2000);
LED8=0; Delay(2000);
LED24=0; Delay(2000);
LED23=0; Delay(2000);
LED22=0; Delay(2000);
LED21=0; Delay(2000);
LED20=0; Delay(2000);
LED19=0; Delay(2000);
LED18=0; Delay(2000);
LED17=0; Delay(2000);
LED32=0; Delay(2000);
LED31=0; Delay(2000);
LED30=0; Delay(2000);
LED29=0; Delay(2000);
LED28=0; Delay(2000);
LED27=0; Delay(2000);
LED26=0; Delay(2000);
LED25=0; Delay(2000);
LED16=0; Delay(2000);
LED15=0; Delay(2000);
LED14=0; Delay(2000);
LED13=0; Delay(2000);
LED12=0; Delay(2000);
LED11=0; Delay(2000);
LED10=0; Delay(2000);
LED9=0; Delay(2000);
}
}
void run_LED_2(void)
{
//顺时针流水灯
for(i = 0; i < 1; i++)
{
LED9=1; Delay(2000);
LED10=1; Delay(2000);
LED11=1; Delay(2000);
LED12=1; Delay(2000);
LED13=1; Delay(2000);
LED14=1; Delay(2000);
LED15=1; Delay(2000);
LED16=1; Delay(2000);
LED25=1; Delay(2000);
LED26=1; Delay(2000);
LED27=1; Delay(2000);
LED28=1; Delay(2000);
LED29=1; Delay(2000);
LED30=1; Delay(2000);
LED31=1; Delay(2000);
LED32=1; Delay(2000);
LED17=1; Delay(2000);
LED18=1; Delay(2000);
LED19=1; Delay(2000);
LED20=1; Delay(2000);
LED21=1; Delay(2000);
LED22=1; Delay(2000);
LED23=1; Delay(2000);
LED24=1; Delay(2000);
LED8=1; Delay(2000);
LED7=1; Delay(2000);
LED6=1; Delay(2000);
LED5=1; Delay(2000);
LED4=1; Delay(2000);
LED3=1; Delay(2000);
LED2=1; Delay(2000);
LED1=1; Delay(2000);
LED9=0; Delay(2000);
LED10=0; Delay(2000);
LED11=0; Delay(2000);
LED12=0; Delay(2000);
LED13=0; Delay(2000);
LED14=0; Delay(2000);
LED15=0; Delay(2000);
LED16=0; Delay(2000);
LED25=0; Delay(2000);
LED26=0; Delay(2000);
LED27=0; Delay(2000);
LED28=0; Delay(2000);
LED29=0; Delay(2000);
LED30=0; Delay(2000);
LED31=0; Delay(2000);
LED32=0; Delay(2000);
LED17=0; Delay(2000);
LED18=0; Delay(2000);
LED19=0; Delay(2000);
LED20=0; Delay(2000);
LED21=0; Delay(2000);
LED22=0; Delay(2000);
LED23=0; Delay(2000);
LED24=0; Delay(2000);
LED8=0; Delay(2000);
LED7=0; Delay(2000);
LED6=0; Delay(2000);
LED5=0; Delay(2000);
LED4=0; Delay(2000);
LED3=0; Delay(2000);
LED2=0; Delay(2000);
LED1=0; Delay(2000);
//逆时针流水灯
LED1=1; Delay(2000);
LED2=1; Delay(2000);
LED3=1; Delay(2000);
LED4=1; Delay(2000);
LED5=1; Delay(2000);
LED6=1; Delay(2000);
LED7=1; Delay(2000);
LED8=1; Delay(2000);
LED24=1; Delay(2000);
LED23=1; Delay(2000);
LED22=1; Delay(2000);
LED21=1; Delay(2000);
LED20=1; Delay(2000);
LED19=1; Delay(2000);
LED18=1; Delay(2000);
LED17=1; Delay(2000);
LED32=1; Delay(2000);
LED31=1; Delay(2000);
LED30=1; Delay(2000);
LED29=1; Delay(2000);
LED28=1; Delay(2000);
LED27=1; Delay(2000);
LED26=1; Delay(2000);
LED25=1; Delay(2000);
LED16=1; Delay(2000);
LED15=1; Delay(2000);
LED14=1; Delay(2000);
LED13=1; Delay(2000);
LED12=1; Delay(2000);
LED11=1; Delay(2000);
LED10=1; Delay(2000);
LED9=1; Delay(2000);
LED1=0; Delay(2000);
LED2=0; Delay(2000);
LED3=0; Delay(2000);
LED4=0; Delay(2000);
LED5=0; Delay(2000);
LED6=0; Delay(2000);
LED7=0; Delay(2000);
LED8=0; Delay(2000);
LED24=0; Delay(2000);
LED23=0; Delay(2000);
LED22=0; Delay(2000);
LED21=0; Delay(2000);
LED20=0; Delay(2000);
LED19=0; Delay(2000);
LED18=0; Delay(2000);
LED17=0; Delay(2000);
LED32=0; Delay(2000);
LED31=0; Delay(2000);
LED30=0; Delay(2000);
LED29=0; Delay(2000);
LED28=0; Delay(2000);
LED27=0; Delay(2000);
LED26=0; Delay(2000);
LED25=0; Delay(2000);
LED16=0; Delay(2000);
LED15=0; Delay(2000);
LED14=0; Delay(2000);
LED13=0; Delay(2000);
LED12=0; Delay(2000);
LED11=0; Delay(2000);
LED10=0; Delay(2000);
LED9=0; Delay(2000);
}
}
//呼吸灯部分
void breathe_LED(void)
{
for(i = 0; i < 300; i++)
{
//全开
turn_on();
Delay(16 * time);
//全关
turn_off();
Delay(16 * (50 - time));
if(mode == 0)
time++;
else if(mode == 1)
time--;
if(time >= 50 || time <= 0)
{
mode++;
mode %= 2;
}
}
}
//上下往返
void fall_rise_LED(void)
{
for(i = 0; i < 2; i++)
{
//初始时全关闭
turn_off();
Delay(10000);
//从上至下
LED9=1; LED1=1; Delay(2000);
LED10=1; LED2=1; Delay(2000);
LED11=1; LED3=1; Delay(2000);
LED12=1; LED4=1; Delay(2000);
LED13=1; LED5=1; Delay(2000);
LED14=1; LED6=1; Delay(2000);
LED15=1; LED7=1; Delay(2000);
LED16=1; LED8=1; Delay(2000);
LED25=1; LED24=1; Delay(2000);
LED26=1; LED23=1; Delay(2000);
LED27=1; LED22=1; Delay(2000);
LED28=1; LED21=1; Delay(2000);
LED29=1; LED20=1; Delay(2000);
LED30=1; LED19=1; Delay(2000);
LED31=1; LED18=1; Delay(2000);
LED32=1; LED17=1; Delay(2000);
LED17=1; LED16=1; Delay(2000);
//闪烁两次
for(j = 0; j < 2; j++)
{
//全关
turn_off();
Delay(10000);
//全开
turn_on();
Delay(10000);
}
//全关
turn_off();
//从上至下
LED17=1; LED16=1; Delay(2000);
LED32=1; LED17=1; Delay(2000);
LED31=1; LED18=1; Delay(2000);
LED30=1; LED19=1; Delay(2000);
LED29=1; LED20=1; Delay(2000);
LED28=1; LED21=1; Delay(2000);
LED27=1; LED22=1; Delay(2000);
LED26=1; LED23=1; Delay(2000);
LED25=1; LED24=1; Delay(2000);
LED16=1; LED8=1; Delay(2000);
LED15=1; LED7=1; Delay(2000);
LED14=1; LED6=1; Delay(2000);
LED13=1; LED5=1; Delay(2000);
LED12=1; LED4=1; Delay(2000);
LED11=1; LED3=1; Delay(2000);
LED10=1; LED2=1; Delay(2000);
LED9=1; LED1=1; Delay(2000);
for(j = 0; j < 2; j++)
{
//全关
turn_off();
Delay(10000);
//全开
turn_on();
Delay(10000);
}
}
}
//满天星
void star_LED(void)
{
for(i = 0; i < 15; i++)
{
//正
LED9=1; LED10=0; LED11=1; LED12=0; LED13=1; LED14=0; LED15=1; LED16=0;
LED25=1; LED26=0; LED27=1; LED28=0; LED29=1; LED30=0;LED31=1;LED32=0;
LED17=1; LED18=0; LED19=1; LED20=0; LED21=1; LED22=0; LED23=1; LED24=0;
LED8=1; LED7=0; LED6=1; LED5=0; LED4=1; LED3=0; LED2=1; LED1=0;
Delay(6000);
//反
LED9=0; LED10=1; LED11=0; LED12=1; LED13=0; LED14=1; LED15=0; LED16=1;
LED25=0; LED26=1; LED27=0; LED28=1; LED29=0; LED30=1;LED31=0;LED32=1;
LED17=0; LED18=1; LED19=0; LED20=1; LED21=0; LED22=1; LED23=0; LED24=1;
LED8=0; LED7=1; LED6=0; LED5=1; LED4=0; LED3=1; LED2=0; LED1=1;
Delay(6000);
}
}
//双线环绕
void chase_LED(void)
{
LED9=0; LED18=0; Delay(2000);
LED10=0; LED19=0; Delay(2000);
LED11=0; LED20=0; Delay(2000);
LED12=0; LED21=0; Delay(2000);
LED13=0; LED22=0; Delay(2000);
LED14=0; LED23=0; Delay(2000);
LED15=0; LED24=0; Delay(2000);
LED16=0; LED10=0; Delay(2000);
LED25=0; LED9=0; Delay(2000);
LED26=0; LED8=0; Delay(2000);
LED27=0; LED7=0; Delay(2000);
LED28=0; LED6=0; Delay(2000);
LED29=0; LED5=0; Delay(2000);
LED30=0; LED4=0; Delay(2000);
LED31=0; LED3=0; Delay(2000);
LED32=0; LED2=0; Delay(2000);
LED17=0; LED1=0; Delay(2000);
LED9=1; LED18=1; Delay(2000);
LED10=1; LED19=1; Delay(2000);
LED11=1; LED20=1; Delay(2000);
LED12=1; LED21=1; Delay(2000);
LED13=1; LED22=1; Delay(2000);
LED14=1; LED23=1; Delay(2000);
LED15=1; LED24=1; Delay(2000);
LED16=1; LED10=1; Delay(2000);
LED25=1; LED9=1; Delay(2000);
LED26=1; LED8=1; Delay(2000);
LED27=1; LED7=1; Delay(2000);
LED28=1; LED6=1; Delay(2000);
LED29=1; LED5=1; Delay(2000);
LED30=1; LED4=1; Delay(2000);
LED31=1; LED3=1; Delay(2000);
LED32=1; LED2=1; Delay(2000);
LED17=1; LED1=1; Delay(2000);
Delay(12000);
}
//反双线环绕
void chase_LED_reverse(void)
{
LED17=0; LED1=0; Delay(2000);
LED32=0; LED2=0; Delay(2000);
LED31=0; LED3=0; Delay(2000);
LED30=0; LED4=0; Delay(2000);
LED29=0; LED5=0; Delay(2000);
LED28=0; LED6=0; Delay(2000);
LED27=0; LED7=0; Delay(2000);
LED26=0; LED8=0; Delay(2000);
LED25=0; LED9=0; Delay(2000);
LED16=0; LED10=0; Delay(2000);
LED15=0; LED24=0; Delay(2000);
LED14=0; LED23=0; Delay(2000);
LED13=0; LED22=0; Delay(2000);
LED12=0; LED21=0; Delay(2000);
LED11=0; LED20=0; Delay(2000);
LED10=0; LED19=0; Delay(2000);
LED9=0; LED18=0; Delay(2000);
LED17=1; LED1=1; Delay(2000);
LED32=1; LED2=1; Delay(2000);
LED31=1; LED3=1; Delay(2000);
LED30=1; LED4=1; Delay(2000);
LED29=1; LED5=1; Delay(2000);
LED28=1; LED6=1; Delay(2000);
LED27=1; LED7=1; Delay(2000);
LED26=1; LED8=1; Delay(2000);
LED25=1; LED9=1; Delay(2000);
LED16=1; LED10=1; Delay(2000);
LED15=1; LED24=1; Delay(2000);
LED14=1; LED23=1; Delay(2000);
LED13=1; LED22=1; Delay(2000);
LED12=1; LED21=1; Delay(2000);
LED11=1; LED20=1; Delay(2000);
LED10=1; LED19=1; Delay(2000);
LED9=1; LED18=1; Delay(2000);
Delay(12000);
}
//双线往返环绕
void chase_LED_back(void)
{
LED17=0; LED1=0; Delay(2000);
LED32=0; LED2=0; Delay(2000);
LED31=0; LED3=0; Delay(2000);
LED30=0; LED4=0; Delay(2000);
LED29=0; LED5=0; Delay(2000);
LED28=0; LED6=0; Delay(2000);
LED27=0; LED7=0; Delay(2000);
LED26=0; LED8=0; Delay(2000);
LED25=0; LED9=0; Delay(2000);
LED16=0; LED10=0; Delay(2000);
LED15=0; LED24=0; Delay(2000);
LED14=0; LED23=0; Delay(2000);
LED13=0; LED22=0; Delay(2000);
LED12=0; LED21=0; Delay(2000);
LED11=0; LED20=0; Delay(2000);
LED10=0; LED19=0; Delay(2000);
LED9=0; LED18=0; Delay(2000);
LED9=1; LED18=1; Delay(2000);
LED10=1; LED19=1; Delay(2000);
LED11=1; LED20=1; Delay(2000);
LED12=1; LED21=1; Delay(2000);
LED13=1; LED22=1; Delay(2000);
LED14=1; LED23=1; Delay(2000);
LED15=1; LED24=1; Delay(2000);
LED16=1; LED10=1; Delay(2000);
LED25=1; LED9=1; Delay(2000);
LED26=1; LED8=1; Delay(2000);
LED27=1; LED7=1; Delay(2000);
LED28=1; LED6=1; Delay(2000);
LED29=1; LED5=1; Delay(2000);
LED30=1; LED4=1; Delay(2000);
LED31=1; LED3=1; Delay(2000);
LED32=1; LED2=1; Delay(2000);
LED17=1; LED1=1; Delay(2000);
Delay(12000);
}
//反双线往返环绕
void chase_LED_back_reverse(void)
{
LED9=0; LED18=0; Delay(2000);
LED10=0; LED19=0; Delay(2000);
LED11=0; LED20=0; Delay(2000);
LED12=0; LED21=0; Delay(2000);
LED13=0; LED22=0; Delay(2000);
LED14=0; LED23=0; Delay(2000);
LED15=0; LED24=0; Delay(2000);
LED16=0; LED10=0; Delay(2000);
LED25=0; LED9=0; Delay(2000);
LED26=0; LED8=0; Delay(2000);
LED27=0; LED7=0; Delay(2000);
LED28=0; LED6=0; Delay(2000);
LED29=0; LED5=0; Delay(2000);
LED30=0; LED4=0; Delay(2000);
LED31=0; LED3=0; Delay(2000);
LED32=0; LED2=0; Delay(2000);
LED17=0; LED1=0; Delay(2000);
LED17=1; LED1=1; Delay(2000);
LED32=1; LED2=1; Delay(2000);
LED31=1; LED3=1; Delay(2000);
LED30=1; LED4=1; Delay(2000);
LED29=1; LED5=1; Delay(2000);
LED28=1; LED6=1; Delay(2000);
LED27=1; LED7=1; Delay(2000);
LED26=1; LED8=1; Delay(2000);
LED25=1; LED9=1; Delay(2000);
LED16=1; LED10=1; Delay(2000);
LED15=1; LED24=1; Delay(2000);
LED14=1; LED23=1; Delay(2000);
LED13=1; LED22=1; Delay(2000);
LED12=1; LED21=1; Delay(2000);
LED11=1; LED20=1; Delay(2000);
LED10=1; LED19=1; Delay(2000);
LED9=1; LED18=1; Delay(2000);
Delay(12000);
}
//延时控制变量
int one_time = 1500;
void one_LED(void)
{
if(one_time > 10)
{
//单灯绕圈
LED25=0; LED16=1; Delay(one_time);
LED26=0; LED25=1; Delay(one_time);
LED27=0; LED26=1; Delay(one_time);
LED28=0; LED27=1; Delay(one_time);
LED29=0; LED28=1; Delay(one_time);
LED30=0; LED29=1; Delay(one_time);
LED31=0; LED30=1; Delay(one_time);
LED32=0; LED31=1; Delay(one_time);
LED17=0; LED32=1; Delay(one_time);
LED18=0; LED17=1; Delay(one_time);
LED19=0; LED18=1; Delay(one_time);
LED20=0; LED19=1; Delay(one_time);
LED21=0; LED20=1; Delay(one_time);
LED22=0; LED21=1; Delay(one_time);
LED23=0; LED22=1; Delay(one_time);
LED24=0; LED23=1; Delay(one_time);
LED8=0; LED24=1; Delay(one_time);
LED7=0; LED8=1; Delay(one_time);
LED6=0; LED7=1; Delay(one_time);
LED5=0; LED6=1; Delay(one_time);
LED4=0; LED5=1; Delay(one_time);
LED3=0; LED4=1; Delay(one_time);
LED2=0; LED3=1; Delay(one_time);
LED1=0; LED2=1; Delay(one_time);
LED9=0; LED1=1; Delay(one_time);
LED10=0; LED9=1; Delay(one_time);
LED11=0; LED10=1; Delay(one_time);
LED12=0; LED11=1; Delay(one_time);
LED13=0; LED12=1; Delay(one_time);
LED14=0; LED13=1; Delay(one_time);
LED15=0; LED14=1; Delay(one_time);
LED16=0; LED15=1; Delay(one_time);
//反单灯绕圈
LED16=1; LED15=0; Delay(one_time);
LED15=1; LED14=0; Delay(one_time);
LED14=1; LED13=0; Delay(one_time);
LED13=1; LED12=0; Delay(one_time);
LED12=1; LED11=0; Delay(one_time);
LED11=1; LED10=0; Delay(one_time);
LED10=1; LED9=0; Delay(one_time);
LED9=1; LED1=0; Delay(one_time);
LED1=1; LED2=0; Delay(one_time);
LED2=1; LED3=0; Delay(one_time);
LED3=1; LED4=0; Delay(one_time);
LED4=1; LED5=0; Delay(one_time);
LED5=1; LED6=0; Delay(one_time);
LED6=1; LED7=0; Delay(one_time);
LED7=1; LED8=0; Delay(one_time);
LED8=1; LED24=0; Delay(one_time);
LED24=1; LED23=0; Delay(one_time);
LED23=1; LED22=0; Delay(one_time);
LED22=1; LED21=0; Delay(one_time);
LED21=1; LED20=0; Delay(one_time);
LED20=1; LED18=0; Delay(one_time);
LED18=1; LED17=0; Delay(one_time);
LED17=1; LED32=0; Delay(one_time);
LED32=1; LED31=0; Delay(one_time);
LED31=1; LED30=0; Delay(one_time);
LED30=1; LED29=0; Delay(one_time);
LED29=1; LED28=0; Delay(one_time);
LED28=1; LED27=0; Delay(one_time);
LED27=1; LED26=0; Delay(one_time);
LED26=1; LED25=0; Delay(one_time);
LED25=1; LED16=0; Delay(one_time);
}
else
{
for(i = 1; i <= 29; i++)
{
//全开
turn_on();
Delay(i*10);
//全关
turn_off();
Delay((29 - i)*10);
}
}
//当延时时间高于10*10us时
if(one_time > 100)
{
one_time -= 300; //延时每圈减300
}
//当延时在10以上以及100以下时
else if(one_time > 10 && one_time <= 100)
{
one_time -= 3; //延时每圈减3
}
//当延时在10以下或者100以上时
else
{
one_time = 10; //延时10
}
}
//从下往上依次亮灯
appear_LED(void)
{
LED16=0;Delay(3000);
LED15=0;LED25=0;Delay(3000);
LED14=0;LED26=0;Delay(3000);
LED13=0;LED27=0;Delay(3000);
LED12=0;LED28=0;Delay(3000);
LED11=0;LED29=0;Delay(3000);
LED10=0;LED30=0;Delay(3000);
LED9=0;LED31=0;Delay(3000);
LED1=0;LED32=0;Delay(3000);
LED2=0;LED17=0;Delay(3000);
LED3=0;LED18=0;Delay(3000);
LED4=0;LED19=0;Delay(3000);
LED5=0;LED20=0;Delay(3000);
LED6=0;LED21=0;Delay(3000);
LED7=0;LED22=0;Delay(3000);
LED8=0;LED23=0;Delay(3000);
LED24=0;Delay(3000);
}
//竖向变换
void vertical_LED(void)
{
//依次亮起两个灯
LED9=1; LED1=1; LED27=0; LED22=0; Delay(5000);
LED10=1; LED2=1; LED28=0; LED21=0; Delay(5000);
LED11=1; LED3=1; LED29=0; LED20=0; Delay(5000);
LED12=1; LED4=1; LED30=0; LED19=0; Delay(5000);
LED13=1; LED5=1; LED17=0; LED18=0; Delay(5000);
LED14=1; LED6=1; LED9=0; LED1=0; Delay(5000);
LED15=1; LED7=1; LED10=0; LED2=0; Delay(5000);
LED16=1; LED8=1; LED11=0; LED3=0; Delay(5000);
LED25=1; LED24=1; LED12=0; LED4=0; Delay(5000);
LED26=1; LED23=1; LED13=0; LED5=0; Delay(5000);
LED27=1; LED22=1; LED14=0; LED6=0; Delay(5000);
LED28=1; LED21=1; LED15=0; LED7=0; Delay(5000);
LED29=1; LED20=1; LED16=0; LED8=0; Delay(5000);
LED30=1; LED19=1; LED25=0; LED24=0; Delay(5000);
LED31=1; LED18=1; LED26=0; LED23=0; Delay(5000);
LED32=1; LED17=1; LED27=0; LED22=0; Delay(5000);
}
void transverse_LED(void)
{
//横向亮灯
LED16=1;Delay(4000);
LED15=1; LED8=1; LED25=1; Delay(4000);
LED14=1; LED7=1; LED26=1; LED24=1; Delay(4000);
LED13=1; LED6=1; LED27=1; LED23=1; Delay(4000);
LED12=1; LED5=1; LED28=1; LED22=1; Delay(4000);
LED11=1; LED4=1; LED29=1; LED21=1; Delay(4000);
LED10=1; LED3=1; LED30=1; LED20=1; Delay(4000);
LED9=1; LED2=1; LED31=1; LED19=1; Delay(4000);
LED1=1; LED32=1; LED17=1;LED18=1; Delay(4000);
Delay(20000);
}
//反横向亮灯
void tran_LED(void)
{
LED1=0; LED32=0; LED17=0;LED18=0; Delay(4000);
LED9=0; LED2=0; LED31=0; LED19=0; Delay(4000);
LED10=0; LED3=0; LED30=0; LED20=0; Delay(4000);
LED11=0; LED4=0; LED29=0; LED21=0; Delay(4000);
LED12=0; LED5=0; LED28=0; LED22=0; Delay(4000);
LED13=0; LED6=0; LED27=0; LED23=0; Delay(4000);
LED14=0; LED7=0; LED26=0; LED24=0; Delay(4000);
LED15=0; LED8=0; LED25=0; Delay(4000);
LED16=0;Delay(4000);
Delay(20000);
}
void main()
{
//全关
turn_off();
transverse_LED();
tran_LED();
turn_on;
while(1)
{
for(i = 0; i < 5; i++){
//单灯循环
one_LED();
}
appear_LED();
//呼吸灯部分
breathe_LED();
turn_off();
//流水灯部分
run_LED();
turn_off();
run_LED_2();
turn_off();
//上下往返
fall_rise_LED();
turn_off();
//满天星
star_LED();
turn_off();
for(i = 0; i < 2; i++){
//双线环绕往返正向
chase_LED();
//双线环绕往返反向
chase_LED_reverse();
}
for(i = 0; i < 2; i++){
//双线环绕
chase_LED_back();
//双线环绕反方向
chase_LED_back_reverse();
}
turn_off();
for(i = 0; i < 2; i++){
//竖向闪灯
vertical_LED();
turn_off();
}
for(i = 0; i < 2; i++){
//横向闪灯
transverse_LED();
tran_LED();
if(i < 1){ //第2次不关灯
turn_off();
}
}
for(i = 0; i < 2; i++)
{
//呼吸灯
breathe_LED();
}
//将单灯循环延时变量恢复原值
one_time = 1500;
}
}
本篇博客就到此为止,谢谢大家的支持!
版权声明:本文为博主原创文章,遵循 CC 4.0 BY-SA 版权协议,转载请附上原文出处链接和本声明。
智能推荐
linux devkmem 源码,linux dev/mem dev/kmem实现访问物理/虚拟内存-程序员宅基地
文章浏览阅读451次。dev/mem: 物理内存的全镜像。可以用来访问物理内存。/dev/kmem: kernel看到的虚拟内存的全镜像。可以用来访问kernel的内容。调试嵌入式Linux内核时,可能需要查看某个内核变量的值。/dev/kmem正好提供了访问内核虚拟内存的途径。现在的内核大都默认禁用了/dev/kmem,打开的方法是在 make menuconfig中选中 device drivers --> ..._dev/mem 源码实现
vxe-table 小众但功能齐全的vue表格组件-程序员宅基地
文章浏览阅读7.1k次,点赞2次,收藏19次。vxe-table,一个小众但功能齐全并支持excel操作的vue表格组件_vxe-table
(开发)bable - es6转码-程序员宅基地
文章浏览阅读62次。参考:http://www.ruanyifeng.com/blog/2016/01/babel.htmlBabelBabel是一个广泛使用的转码器,可以将ES6代码转为ES5代码,从而在现有环境执行// 转码前input.map(item => item + 1);// 转码后input.map(function (item) { return item..._让开发环境支持bable
FPGA 视频处理 FIFO 的典型应用_fpga 频分复用 视频-程序员宅基地
文章浏览阅读2.8k次,点赞6次,收藏29次。摘要:FPGA视频处理FIFO的典型应用,视频输入FIFO的作用,视频输出FIFO的作用,视频数据跨时钟域FIFO,视频缩放FIFO的作用_fpga 频分复用 视频
R语言:设置工作路径为当前文件存储路径_r语言设置工作目录到目标文件夹-程序员宅基地
文章浏览阅读575次。【代码】R语言:设置工作路径为当前文件存储路径。_r语言设置工作目录到目标文件夹
background 线性渐变-程序员宅基地
文章浏览阅读452次。格式:background: linear-gradient(direction, color-stop1, color-stop2, ...);<linear-gradient> = linear-gradient([ [ <angle> | to <side-or-corner>] ,]? &l..._background线性渐变
随便推点
【蓝桥杯省赛真题39】python输出最大的数 中小学青少年组蓝桥杯比赛 算法思维python编程省赛真题解析-程序员宅基地
文章浏览阅读1k次,点赞26次,收藏8次。第十三届蓝桥杯青少年组python编程省赛真题一、题目要求(注:input()输入函数的括号中不允许添加任何信息)1、编程实现给定一个正整数N,输出正整数N中各数位最大的那个数字。例如:N=132,则输出3。2、输入输出输入描述:只有一行,输入一个正整数N输出描述:只有一行,输出正整数N中各数位最大的那个数字输入样例:
网络协议的三要素-程序员宅基地
文章浏览阅读2.2k次。一个网络协议主要由以下三个要素组成:1.语法数据与控制信息的结构或格式,包括数据的组织方式、编码方式、信号电平的表示方式等。2.语义即需要发出何种控制信息,完成何种动作,以及做出何种应答,以实现数据交换的协调和差错处理。3.时序即事件实现顺序的详细说明,以实现速率匹配和排序。不完整理解:语法表示长什么样,语义表示能干什么,时序表示排序。转载于:https://blog.51cto.com/98..._网络协议三要素csdn
The Log: What every software engineer should know about real-time data's unifying abstraction-程序员宅基地
文章浏览阅读153次。主要的思想,将所有的系统都可以看作两部分,真正的数据log系统和各种各样的query engine所有的一致性由log系统来保证,其他各种query engine不需要考虑一致性,安全性,只需要不停的从log系统来同步数据,如果数据丢失或crash可以从log系统replay来恢复可以看出kafka系统在linkedin中的重要地位,不光是d..._the log: what every software engineer should know about real-time data's uni
《伟大是熬出来的》冯仑与年轻人闲话人生之一-程序员宅基地
文章浏览阅读746次。伟大是熬出来的 目录 前言 引言 时间熬成伟大:领导者要像狼一样坚忍 第一章 内圣外王——领导者的心态修炼 1. 天纵英才的自信心 2. 上天揽月的企图心 3. 誓不回头的决心 4. 宠辱不惊的平常心 5. 换位思考的同理心 6. 激情四射的热心 第二章 日清日高——领导者的高效能修炼 7. 积极主动,想到做到 8. 合理掌控自己的时间和生命 9. 制定目标,马..._当狼拖着受伤的右腿逃生时,右腿会成为前进的阻碍,它会毫不犹豫撕咬断自己的腿, 以
有源光缆AOC知识百科汇总-程序员宅基地
文章浏览阅读285次。在当今的大数据时代,人们对高速度和高带宽的需求越来越大,迫切希望有一种新型产品来作为高性能计算和数据中心的主要传输媒质,所以有源光缆(AOC)在这种环境下诞生了。有源光缆究竟是什么呢?应用在哪些领域,有什么优势呢?易天将为您解答!有源光缆(Active Optical Cables,简称AOC)是两端装有光收发器件的光纤线缆,主要构成部件分为光路和电路两部分。作为一种高性能计..._aoc 光缆
浏览器代理服务器自动配置脚本设置方法-程序员宅基地
文章浏览阅读2.2k次。在“桌面”上按快捷键“Ctrl+R”,调出“运行”窗口。接着,在“打开”后的输入框中输入“Gpedit.msc”。并按“确定”按钮。如下图 找到“用户配置”下的“Windows设置”下的“Internet Explorer 维护”的“连接”,双击选择“自动浏览器配置”。如下图 选择“自动启动配置”,并在下面的“自动代理URL”中填写相应的PAC文件地址。如下..._設置proxy腳本