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ABT-Clock-LCD.ino
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ABT-Clock-LCD.ino
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/* ABT-Clock
* Written by Antbot *
*/
#include <EEPROM.h>
#include <Wire.h>
#include <LiquidCrystal.h>
#include "RTClib.h"
//LiquidCrystal lcd(8, 9, 4, 5, 6, 7);
LiquidCrystal lcd(6, 10, 9, 14, 15, 16);
RTC_DS1307 RTC;
#define btnRIGHT 0
#define btnUP 1
#define btnDOWN 2
#define btnLEFT 3
#define btnSELECT 4
#define btnSELECT1 6
#define btnNONE 5
#define BellStart 6
#define NOTE_D0 -1
#define NOTE_D1 294
#define NOTE_D2 330
#define NOTE_D3 350
#define NOTE_D4 393
#define NOTE_D5 441
#define NOTE_D6 495
#define NOTE_D7 556
#define NOTE_DL1 147
#define NOTE_DL2 165
#define NOTE_DL3 175
#define NOTE_DL4 196
#define NOTE_DL5 221
#define NOTE_DL6 248
#define NOTE_DL7 278
#define NOTE_DH1 589
#define NOTE_DH2 661
#define NOTE_DH3 700
#define NOTE_DH4 786
#define NOTE_DH5 882
#define NOTE_DH6 990
#define NOTE_DH7 112
#define WHOLE 1
#define HALF 0.5
#define QUARTER 0.25
#define EIGHTH 0.25
#define SIXTEENTH 0.625
int tune[] =
{
NOTE_DH1,NOTE_D6,NOTE_D5,NOTE_D6,NOTE_D0,
NOTE_DH1,NOTE_D6,NOTE_D5,NOTE_DH1,NOTE_D6
};
float duration[]=
{
1,1,0.5,0.5,1,
0.5,0.5,0.5,0.5,1
};
int musicpin=5;
int bellFlag=0;
byte bell[8] =
{
B00010,
B00111,
B00111,
B00110,
B00111,
B10110,
B11110,
B01010
};
byte bell1[8] =
{
B00001,
B00011,
B00100,
B01000,
B01000,
B01000,
B11111,
B00001
};
byte bell2[8] =
{
B10000,
B11000,
B00100,
B00010,
B00010,
B00010,
B11111,
B10000
};
byte bell3[8] =
{
B00001,
B00010,
B00100,
B01000,
B10000,
B11000,
B00111,
B00000
};
byte bell4[8] =
{
B00001,
B00010,
B00100,
B01000,
B10000,
B11000,
B00111,
B00000
};
byte freep[8] =
{
B00000,
B00000,
B00000,
B00000,
B00000,
B00000,
B00000,
B00000
};
int mat1=0;
int mat2=0;
/////////////////////////////////////////
struct bellTime{
int thour;
int tmin;
int tsec;
};
bellTime _bTime;
bellTime _obTime;
/////////////////////////////////////////
void setup() {
int i;
Serial.begin(9600);
pinMode (musicpin, OUTPUT);
pinMode (A0, INPUT);
pinMode (A1, INPUT);
pinMode (A2, INPUT);
pinMode (A3, INPUT);
pinMode (7, INPUT);
pinMode (8, INPUT);
for(i=0;i<8;i++)
{
bell3[i] = ~bell1[i];
bell4[i] = ~bell2[i];
}
lcd.createChar(0, bell);
lcd.createChar(1, bell1);
lcd.createChar(2, bell2);
lcd.createChar(3, bell3);
lcd.createChar(4, bell4);
lcd.createChar(5, freep);
lcd.begin(16, 2);
////////////////////////////////////
Wire.begin();
RTC.begin();
//RTC.adjust(DateTime(__DATE__, __TIME__));//用于校准时间,与电脑时间同步,取消注释然后上传即可同步;如果单独供电的话别忘了再加上注释重新上传
if (! RTC.isrunning()) {
Serial.println("RTC is NOT running!");
// following line sets the RTC to the date & time this sketch was compiled
RTC.adjust(DateTime(__DATE__, __TIME__));
}
////////////////////////////////////
_bTime.thour = ReadCfg(0);
if(_bTime.thour>23)
_bTime.thour=0;
_bTime.tmin = ReadCfg(1);
if(_bTime.tmin>59)
_bTime.thour=0;
////////////////////////////////////
char tmbuff[16];
mat1 = 1;
lcd.setCursor(BellStart-4,1);
lcd.write(mat1);
mat2 = 2;
lcd.setCursor(BellStart-3,1);
lcd.write(mat2);
sprintf(tmbuff,"%02d:%02d",_bTime.thour,_bTime.tmin);
String s = String(tmbuff);
lcd.setCursor(BellStart,1);
lcd.print(s);
}
int frmCnt=0;
int crosPos=0;
void loop() {
int frameDelay=25;
char tmbuff[2];
String s;
char sHour[4];
char sMin[4];
char sSec[4];
int x;
if(bellFlag>0)
{
bellFlag++;
if(bellFlag<6)
{
if(bellFlag%2==1)
{
mat1 = 1;
mat2 = 2;
}else{
mat1 = 3;
mat2 = 4;
}
lcd.setCursor(BellStart-4,1);
lcd.write(mat1);
lcd.setCursor(BellStart-3,1);
lcd.write(mat2);
/////////////////
for(x=0;x<10;x++)//循环音符的次数
{
tone(musicpin,tune[x]);//此函数依次播放tune序列里的数组,即每个音符
delay(400*duration[x]);//每个音符持续的时间,即节拍duration,400是调整时间的越大,曲子速度越慢,越小曲子速度越快,自己掌握吧
noTone(musicpin);//停止当前音符,进入下一音符
}
////////////////
}
if(bellFlag>70)
bellFlag=0;
}
DateTime nowto = RTC.now();
Serial.print(nowto.hour(), DEC);
Serial.print(':');
Serial.print(nowto.minute(), DEC);
Serial.print(':');
Serial.print(nowto.second(), DEC);
Serial.println();
if(_bTime.thour==nowto.hour()&&_bTime.tmin==nowto.minute()&&bellFlag==0)
{
bellFlag =1;
}
sprintf(sHour,"%02d",nowto.hour());
sprintf(sMin,"%02d",nowto.minute());
sprintf(sSec,"%02d",nowto.second());
s = String(sHour)+":"+String(sMin)+":"+String(sSec);
lcd.setCursor(4,0);
lcd.print(s);
//////////////////////////////////
if(crosPos==0&&getKey()==btnSELECT)
{
SetClock();
}
delay(1000);
}
void BellSing()
{
}
//设置闹铃
void SetClock(){
int setCnt=0;
char tmbuff[3];
String s;
int noact=0;
crosPos = 1;
setCnt = 0;
lcd.setCursor(BellStart+crosPos-1,1);
lcd.blink();
for(;;)
{
if(setCnt>3&&getKey()==btnSELECT1)
{
break;
}
if(getKey()==btnRIGHT&&crosPos<5)
{
noact=0;
lcd.noBlink();
crosPos++;
lcd.setCursor(BellStart+crosPos-1,1);
lcd.blink();
}else if(getKey()==btnLEFT&&crosPos>0)
{
noact=0;
lcd.noBlink();
crosPos--;
lcd.setCursor(BellStart+crosPos-1,1);
lcd.blink();
}else if(getKey()==btnUP)
{
noact=0;
lcd.noBlink();
if(crosPos>2)
{
if(_bTime.tmin<59)
_bTime.tmin++;
else
_bTime.tmin=0;
sprintf(tmbuff,"%02d",_bTime.tmin);
s = String(tmbuff);
lcd.setCursor(BellStart+3,1);
}else{
if(_bTime.thour<23)
_bTime.thour++;
else
_bTime.thour=0;
sprintf(tmbuff,"%02d",_bTime.thour);
s = String(tmbuff);
lcd.setCursor(BellStart,1);
}
lcd.print(s);
lcd.setCursor(BellStart+crosPos-1,1);
lcd.blink();
}else if(getKey()==btnDOWN)
{
noact=0;
lcd.noBlink();
if(crosPos>2)
{
if(_bTime.tmin>0)
_bTime.tmin--;
else
_bTime.tmin=59;
sprintf(tmbuff,"%02d",_bTime.tmin);
s = String(tmbuff);
lcd.setCursor(BellStart+3,1);
}else{
if(_bTime.thour>0)
_bTime.thour--;
else
_bTime.thour=23;
sprintf(tmbuff,"%02d",_bTime.thour);
s = String(tmbuff);
lcd.setCursor(BellStart,1);
}
lcd.print(s);
lcd.setCursor(BellStart+crosPos-1,1);
lcd.blink();
}else if(getKey()==btnNONE)
{
noact++;
if(noact>50)
break;
}
delay(200);
setCnt++;
}
//RTC.begin();
crosPos = 0;
lcd.noBlink();
WriteCfg(0,_bTime.thour);
WriteCfg(1,_bTime.tmin);
Serial.println("set ok!");
}
int getKey() {
if(!digitalRead(A0))
{
delay(10);
if(!digitalRead(A0))
return btnUP;
}
if(!digitalRead(A1))
{
delay(10);
if(!digitalRead(A1))
return btnRIGHT;
}
if(!digitalRead(A3)){
delay(10);
if(!digitalRead(A3))
return btnDOWN;
}
if(!digitalRead(A2)){
delay(10);
if(!digitalRead(A2))
return btnLEFT;
}
if(!digitalRead(7)) {
delay(10);
if(!digitalRead(7))
return btnSELECT;
}
if(!digitalRead(8)) {
delay(10);
if(!digitalRead(8))
return btnSELECT1;
}
return btnNONE;
}
unsigned char ReadCfg(unsigned char addr)
{
unsigned char val;
val = EEPROM.read(addr);
return val;
}
void WriteCfg(unsigned char addr,unsigned char val)
{
EEPROM.write(addr, val);
}