蓝桥杯----大模板
在写大模板之前,先讲一个函System_Init(),用于系统初始化关闭所有LED与外设,关闭所有LED就是传入0xff数据打开锁存器,关闭外设就是传入0x00打开锁存器。
现在所有底层已经提供给大家了,先提供最简单版本的大模板,考前大家一定要把这个代码记熟。书写.h文件后代码可直接运行!
好了,蓝桥杯更新到这里就告一段落了,接下来是省赛题的代码,不会每一个都讲,只会讲一些可能存在的难点。
1、Key底层
#include <STC15F2K60S2.H>unsigned char Key_Read(void)
{unsigned char Key_Num = 0; //一定记得赋初始值0// AUXR &= ~0x10; //关闭定时器二(有串口时加上)//扫描第一列P44 = 0;P42 = 1;P35 = 1;//P34 = 1; //有频率采样时必须注释if(P33 == 0) Key_Num = 4;if(P32 == 0) Key_Num = 5;if(P31 == 0) Key_Num = 6;if(P30 == 0) Key_Num = 7;//扫描第二列P44 = 1;P42 = 0;P35 = 1;//P34 = 1;if(P33 == 0) Key_Num = 8;if(P32 == 0) Key_Num = 9;if(P31 == 0) Key_Num = 10;if(P30 == 0) Key_Num = 11;//扫描第三列P44 = 1;P42 = 1;P35 = 0;//P34 = 1;if(P33 == 0) Key_Num = 12;if(P32 == 0) Key_Num = 13;if(P31 == 0) Key_Num = 14;if(P30 == 0) Key_Num = 15;// P44 = 1;
// P42 = 1;
// P35 = 1;
// P34 = 0;
//
// if(P33 == 0) Key_Num = 16;
// if(P32 == 0) Key_Num = 17;
// if(P31 == 0) Key_Num = 18;
// if(P30 == 0) Key_Num = 19;// AUXR |= 0x10; //打开定时器二(有串口时加上)P3 = 0xff;return Key_Num;
}2、Seg底层
#include <STC15F2K60S2.H>idata unsigned char duanselect[]={0xc0,0xf9,0xa4,0xb0,0x99,0x92,0x82,0xf8,0x80,0x90,0xff,0xbf};void Seg_Disp(unsigned char wei,duan,point)
{unsigned char temp;//段选消影P0 = 0xff;temp = P2 & 0x1f;temp = temp | 0xe0;P2 = temp;temp = P2 & 0x1f;P2 = temp;//先位选P0 = 0x01<<wei;temp = P2 & 0x1f;temp = temp | 0xc0;P2 = temp;temp = P2 & 0x1f;P2 = temp;//再段选P0 = duanselect[duan];if(point) //判断小数点P0 = P0 & 0x7f;temp = P2 & 0x1f;temp = temp | 0xe0;P2 = temp;temp = P2 & 0x1f;P2 = temp;}3、LED底层
#include <STC15F2K60S2.H>idata unsigned char temp_1 = 0x00;
idata unsigned char temp_old_1 = 0xff;
void LED_Disp(unsigned char *LED_Buf)
{unsigned char temp;temp_1 = 0x00;temp_1 = (LED_Buf[0]<<0) | (LED_Buf[1]<<1) |(LED_Buf[2]<<2) |(LED_Buf[3]<<3) |(LED_Buf[4]<<4) |(LED_Buf[5]<<5) |(LED_Buf[6]<<6) |(LED_Buf[7]<<7);if(temp_1 != temp_old_1){P0 = ~temp_1; //一定记得取反temp = P2 & 0x1f;temp = temp | 0x80;P2 = temp;temp = P2 & 0x1f;P2 = temp;temp_old_1 = temp_1;}
}4、.h文件书写格式
/*
#ifndef __LED_H__
#define __LED_H__void LED_Disp(unsigned char *LED_Buf);
#endif
*//*
#ifndef __KEY_H__
#define __KEY_H__unsigned char Key_Read(void);
#endif
*//*
#ifndef __SEG_H__
#define __SEG_H__void Seg_Disp(unsigned char wei,duan,point);
#endif
*/5、main函数
#include <STC15F2K60S2.H>
#include "Seg.h"
#include "LED.h"
#include "Key.h"idata unsigned char Seg_Slow_Down; //数码管延时变量
idata unsigned char Key_Slow_Down; //按键延时变量
idata unsigned char Seg_Buf[8]={10,10,10,10,10,10,10,10}; //数码管显示内容
idata unsigned char Seg_Scan; //数码管扫描
idata unsigned char LED_Buf[8]={0,0,0,0,0,0,0,0}; //LED亮灭数据
idata unsigned char Key_Val,Key_Down,Key_Up,Key_Old; //按键参数void System_Init() //系统初始化
{unsigned char temp;//关闭所有LEDP0 = 0xff;temp = P2 & 0x1f;temp = temp | 0x80;P2 = temp;temp = P2 & 0x1f;P2 = temp;//关闭外设P0 = 0x00;temp = P2 & 0x1f;temp = temp | 0xa0;P2 = temp;temp = P2 & 0x1f;P2 = temp;}//定时器一初始化,自己加上EA = 1;ET1 = 1;
void Timer1_Init(void) //1毫秒@12.000MHz
{AUXR &= 0xBF; //定时器时钟12T模式TMOD &= 0x0F; //设置定时器模式TL1 = 0x18; //设置定时初始值TH1 = 0xFC; //设置定时初始值TF1 = 0; //清除TF1标志TR1 = 1; //定时器1开始计时EA = 1; //打开总中断ET1 = 1; //打开定时器一中断允许位
}void Key_Proc() //按键处理函数
{if(Key_Slow_Down <20) return; //按键减速Key_Slow_Down = 0;Key_Val = Key_Read(); //读取键码值Key_Down = Key_Val & (Key_Old ^ Key_Val); //判断按下Key_Up = ~Key_Val & (Key_Old ^ Key_Val); //判断松开Key_Old = Key_Val; //判断长按switch(Key_Down){}
}void Seg_Proc() //数码管处理函数
{if(Seg_Slow_Down <100) return; //减速Seg_Slow_Down = 0;}void LED_Proc() //LED处理函数
{}void main()
{System_Init();Timer1_Init();while(1){Key_Proc();Seg_Proc();LED_Proc();}}//定时器一中断打开---中断标志位3
void Timer1_Routine() interrupt 3
{Seg_Slow_Down++;Key_Slow_Down++;if(++Seg_Scan == 8) Seg_Scan = 0;if(Seg_Buf[Seg_Scan] > 20) //判断带小数点的数据Seg_Disp(Seg_Scan,Seg_Buf[Seg_Scan]-',',1);elseSeg_Disp(Seg_Scan,Seg_Buf[Seg_Scan],0);LED_Disp(LED_Buf); //LED扫描
}
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