wordclock/libraries/DS3231/DS3231.cpp

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#include <Arduino.h>
#include <Wire.h>
#include <DS3231.h>
void DS3231::begin()
{
Wire.begin();
}
uint8_t DS3231::getSeconds()
{
uint8_t seconds;
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// read seconds
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seconds = getRegister(DS3231_SECONDS);
return bcdtodec(seconds);
}
void DS3231::setSeconds(uint8_t seconds)
{
// write seconds
setRegister(DS3231_SECONDS, dectobcd(seconds));
}
void DS3231::incrementSeconds()
{
uint8_t seconds = getSeconds();
if (seconds == 58)
{
seconds = 0;
}
else
{
seconds += 2;
}
setSeconds(seconds);
}
void DS3231::decrementSeconds()
{
uint8_t seconds = getSeconds();
if (seconds == 1)
{
seconds = 59;
}
else
{
seconds -= 2;
}
setSeconds(seconds);
}
uint8_t DS3231::getMinutes()
{
uint8_t minutes;
// read minutes
minutes = getRegister(DS3231_MINUTES);
return bcdtodec(minutes);
}
void DS3231::setMinutes(uint8_t minutes)
{
// write minutes
setRegister(DS3231_MINUTES, dectobcd(minutes));
}
void DS3231::incrementMinutes()
{
uint8_t minutes = getMinutes();
if (minutes == 59)
{
minutes = 0;
}
else
{
minutes++;
}
setMinutes(minutes);
}
void DS3231::decrementMinutes()
{
uint8_t minutes = getMinutes();
if (minutes == 0)
{
minutes = 59;
}
else
{
minutes--;
}
setMinutes(minutes);
}
uint8_t DS3231::getHours()
{
uint8_t hours;
// read hours
hours = getRegister(DS3231_HOURS);
return bcdtodec(hours);
}
void DS3231::setHours(uint8_t hours)
{
// write hours
setRegister(DS3231_HOURS, dectobcd(hours));
}
void DS3231::incrementHours()
{
uint8_t hours = getHours();
if (hours == 23)
{
hours = 0;
}
else
{
hours++;
}
setHours(hours);
}
void DS3231::decrementHours()
{
uint8_t hours = getHours();
if (hours == 0)
{
hours = 23;
}
else
{
hours--;
}
setHours(hours);
}
uint8_t DS3231::getDay()
{
uint8_t day;
// read day
day = getRegister(DS3231_DAY);
return bcdtodec(day);
}
void DS3231::setDay(uint8_t day)
{
// write day
setRegister(DS3231_DAY, dectobcd(day));
}
uint8_t DS3231::getDate()
{
uint8_t date;
// read date
date = getRegister(DS3231_DATE);
return bcdtodec(date);
}
void DS3231::setDate(uint8_t date)
{
// write date
setRegister(DS3231_DATE, dectobcd(date));
}
void DS3231::incrementDate()
{
uint8_t date = getDate();
date++;
if (date > 31)
{
date = 1;
}
setDate(date);
}
void DS3231::decrementDate()
{
uint8_t date = getDate();
date--;
if (date < 1)
{
date = 31;
}
setDate(date);
}
uint8_t DS3231::getMonth()
{
uint8_t month;
// read month
month = getRegister(DS3231_MONTH);
// read month, ingore century;
return bcdtodec(month & 0x1F);
}
void DS3231::setMonth(uint8_t month)
{
uint8_t century = getCentury();
month = dectobcd(month);
if (century == 1)
{
month = month + 0x80;
}
// write month
setRegister(DS3231_MONTH, month);
}
void DS3231::incrementMonth()
{
uint8_t month = getMonth();
month++;
if (month > 12)
{
month = 1;
}
setMonth(month);
}
void DS3231::decrementMonth()
{
uint8_t month = getMonth();
month--;
if (month < 1)
{
month = 12;
}
setMonth(month);
}
int16_t DS3231::getYear()
{
uint8_t century = getCentury();
int16_t year;
// read year
year = getRegister(DS3231_YEAR);
year = bcdtodec(year);
if (century == 1)
{
year = 2000 + year;
}
else
{
year = 1900 + year;
}
return year;
}
void DS3231::setYear(int16_t year)
{
if (year > 1999)
{
year = year - 2000;
setCentury(0x80);
}
else
{
year = year - 1900;
setCentury(0);
}
setRegister(DS3231_YEAR, dectobcd(year));
}
void DS3231::incrementYear()
{
int16_t year = getYear();
year++;
if (year > 2099)
{
year = 1900;
}
setYear(year);
}
void DS3231::decrementYear()
{
int16_t year = getYear();
year--;
if (year < 1900)
{
year = 2099;
}
setYear(year);
}
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uint8_t DS3231::getAlarm1Seconds()
{
return bcdtodec(getRegister(DS3231_ALARM1_SECONDS));
}
void DS3231::setAlarm1Seconds(uint8_t seonds)
{
setRegister(DS3231_ALARM1_SECONDS, dectobcd(seconds % 60));
}
uint8_t DS3231::getAlarm1Minutes()
{
return bcdtodec(getRegister(DS3231_ALARM1_MINUTES));
}
void DS3231::setAlarm1Minutes(uint8_t minutes)
{
setRegister(DS3231_ALARM1_MINUTES, dectobcd(minutes % 60));
}
uint8_t DS3231::getAlarm1Hours()
{
return bcdtodec(getRegister(DS3231_ALARM1_HOURS));
}
void DS3231::setAlarm1Hours(uint8_t hours)
{
setRegister(DS3231_ALARM1_HOURS, dectobcd(hours % 24));
}
uint8_t DS3231::getAlarm1Date()
{
return bcdtodec(getRegister(DS3231_ALARM1_DATE));
}
void DS3231::setAlarm1Date(uint8_t date)
{
setRegister(DS3231_ALARM1_DATE, dectobcd(data % 31));
}
void DS3231::setAlarm1Mask(uint8_t mask)
{
setRegister(DS3231_ALARM1_SECONDS, dectobcd(getAlarm1Seconds()) | ((mask & 0b00000001) << 7));
setRegister(DS3231_ALARM1_MINUTES, dectobcd(getAlarm1Minutes()) | ((mask & 0b00000010) << 6));
setRegister(DS3231_ALARM1_HOURS, dectobcd(getAlarm1Hours()) | ((mask & 0b00000100) << 5));
setRegister(DS3231_ALARM1_DATE, dectobcd(getAlarm1Date()) | ((mask & 0b00001000) << 4));
}
uint8_t DS3231::getAlarm2Minutes()
{
return bcdtodec(getRegister(DS3231_ALARM2_MINUTES));
}
void DS3231::setAlarm2Minutes(uint8_t minutes)
{
setRegister(DS3231_ALARM2_MINUTES, dectobcd(minutes % 60));
}
uint8_t DS3231::getAlarm2Hours()
{
return bcdtodec(getRegister(DS3231_ALARM2_HOURS));
}
void DS3231::setAlarm2Hours(uint8_t hours)
{
setRegister(DS3231_ALARM2_HOURS, dectobcd(hours % 24));
}
uint8_t DS3231::getAlarm2Date()
{
return bcdtodec(getRegister(DS3231_ALARM2_DATE));
}
void DS3231::setAlarm2Date(uint8_t date)
{
setRegister(DS3231_ALARM2_DATE, dectobcd(date % 31));
}
void DS3231::setAlarm2Mask(uint8_t mask)
{
setRegister(DS3231_ALARM2_MINUTES, dectobcd(getAlarm2Minutes()) | ((mask & 0b00000001) << 7));
setRegister(DS3231_ALARM2_HOURS, dectobcd(getAlarm2Hours()) | ((mask & 0b00000010) << 6));
setRegister(DS3231_ALARM2_DATE, dectobcd(getAlarm2Date()) | ((mask & 0b00000100) << 5));
}
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uint8_t DS3231::getControlRegister()
{
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return getRegister(DS3231_CONTROL);
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}
void DS3231::setControlRegister(uint8_t value)
{
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setRegister(DS3231_CONTROL, value);
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}
uint8_t DS3231::getStatusRegister()
{
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return getRegister(DS3231_STATUS);
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}
void DS3231::setStatusRegister(uint8_t value)
{
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setRegister(DS3231_STATUS, value);
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}
uint8_t DS3231::getTemperature()
{
int8_t msb_temp;
uint8_t msb_value = getRegister(DS3231_MSB_TEMP);
uint8_t lsb_temp = getRegister(DS3231_LSB_TEMP) >> 6;
float result;
if ((msb_value & 0x80) != 0)
{
msb_temp = msb_value | ~((1 << 8) - 1);
}
else
{
msb_temp = msb_value;
}
result = 0.25 * lsb_temp + msb_temp;
return result;
}
uint8_t DS3231::getRegister(uint8_t address)
{
uint8_t value;
Wire.beginTransmission(DS3231_I2C_ADDRESS);
Wire.write(address);
Wire.endTransmission();
// request 1 byte
Wire.requestFrom(DS3231_I2C_ADDRESS, 1);
// read value
value = Wire.read();
return value;
}
void DS3231::setRegister(uint8_t address, uint8_t value)
{
Wire.beginTransmission(DS3231_I2C_ADDRESS);
// start at address
Wire.write(address);
// write value
Wire.write(value);
Wire.endTransmission();
}
uint8_t DS3231::dectobcd(uint8_t value)
{
return ((value / 10 * 16) + (value % 10));
}
uint8_t DS3231::bcdtodec(uint8_t value)
{
return ((value / 16 * 10) + (value % 16));
}
uint8_t DS3231::getCentury()
{
uint8_t century = 0;
uint8_t month = getRegister(DS3231_MONTH);
// read century from month
century = (month & 0x80) >> 7;
return century;
}
void DS3231::setCentury(uint8_t century)
{
uint8_t month = getMonth();
month = month + century;
setRegister(DS3231_MONTH, month);
}