307 lines
10 KiB
C++
307 lines
10 KiB
C++
/*****
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* NAME
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* Pcf8563 Real Time Clock support routines
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* AUTHOR
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* Joe Robertson, jmr
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* orbitalair@bellsouth.net
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* http://orbitalair.wikispaces.com/Arduino
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* CREATION DATE
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* 9/24/06, init - built off of usart demo. using mikroC
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* NOTES
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* HISTORY
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* 10/14/06 ported to CCS compiler, jmr
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* 2/21/09 changed all return values to hex val and not bcd, jmr
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* 1/10/10 ported to arduino, jmr
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* 2/14/10 added 3 world date formats, jmr
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* 28/02/2012 A. Pasotti
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* fixed a bug in RTCC_ALARM_AF,
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* added a few (not really useful) methods
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* 22/10/2014 Fix whitespace, tabs, and newlines, cevich
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* 22/10/2014 add voltLow get/set, cevich
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* 22/10/2014 add century get, cevich
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* 22/10/2014 Fix get/set date/time race condition, cevich
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* 22/10/2014 Header/Code rearranging, alarm/timer flag masking,
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* extern Wire, cevich
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* 26/11/2014 Add zeroClock(), initialize to lowest possible
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* values, cevich
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* 22/10/2014 add timer support, cevich
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* 24/01/2018 add getTimestamp, gilou
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*
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* TODO
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* x Add Euro date format
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* Add short time (hh:mm) format
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* Add 24h/12h format
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******
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* Robodoc embedded documentation.
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* http://www.xs4all.nl/~rfsber/Robo/robodoc.html
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*/
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#ifndef Rtc_Pcf8563_H
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#define Rtc_Pcf8563_H
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/* the read and write values for pcf8563 rtcc */
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/* these are adjusted for arduino */
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#define RTCC_R 0xa3
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#define RTCC_W 0xa2
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#define RTCC_SEC 1
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#define RTCC_MIN 2
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#define RTCC_HR 3
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#define RTCC_DAY 4
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#define RTCC_WEEKDAY 5
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#define RTCC_MONTH 6
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#define RTCC_YEAR 7
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#define RTCC_CENTURY 8
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/* register addresses in the rtc */
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#define RTCC_STAT1_ADDR 0x0
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#define RTCC_STAT2_ADDR 0x01
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#define RTCC_SEC_ADDR 0x02
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#define RTCC_MIN_ADDR 0x03
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#define RTCC_HR_ADDR 0x04
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#define RTCC_DAY_ADDR 0x05
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#define RTCC_WEEKDAY_ADDR 0x06
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#define RTCC_MONTH_ADDR 0x07
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#define RTCC_YEAR_ADDR 0x08
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#define RTCC_ALRM_MIN_ADDR 0x09
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#define RTCC_SQW_ADDR 0x0D
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#define RTCC_TIMER1_ADDR 0x0E
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#define RTCC_TIMER2_ADDR 0x0F
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/* setting the alarm flag to 0 enables the alarm.
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* set it to 1 to disable the alarm for that value.
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*/
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#define RTCC_ALARM 0x80
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#define RTCC_ALARM_AIE 0x02
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#define RTCC_ALARM_AF 0x08
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/* optional val for no alarm setting */
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#define RTCC_NO_ALARM 99
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#define RTCC_TIMER_TIE 0x01 // Timer Interrupt Enable
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#define RTCC_TIMER_TF 0x04 // Timer Flag, read/write active state
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// When clearing, be sure to set RTCC_TIMER_AF
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// to 1 (see note above).
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#define RTCC_TIMER_TI_TP 0x10 // 0: INT is active when TF is active
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// (subject to the status of TIE)
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// 1: INT pulses active
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// (subject to the status of TIE);
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// Note: TF stays active until cleared
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// no matter what RTCC_TIMER_TI_TP is.
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#define RTCC_TIMER_TD10 0x03 // Timer source clock, TMR_1MIN saves power
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#define RTCC_TIMER_TE 0x80 // Timer 1:enable/0:disable
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/* Timer source-clock frequency constants */
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#define TMR_4096HZ B00000000
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#define TMR_64Hz B00000001
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#define TMR_1Hz B00000010
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#define TMR_1MIN B00000011
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#define RTCC_CENTURY_MASK 0x80
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#define RTCC_VLSEC_MASK 0x80
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/* date format flags */
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#define RTCC_DATE_WORLD 0x01
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#define RTCC_DATE_ASIA 0x02
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#define RTCC_DATE_US 0x04
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/* time format flags */
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#define RTCC_TIME_HMS 0x01
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#define RTCC_TIME_HM 0x02
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/* square wave constants */
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#define SQW_DISABLE B00000000
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#define SQW_32KHZ B10000000
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#define SQW_1024HZ B10000001
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#define SQW_32HZ B10000010
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#define SQW_1HZ B10000011
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/* epoch timestamp constants : 01/01/2016 à 00:00:00 : 1451599200 */
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#define epoch_day 1
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#define epoch_month 1
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#define epoch_year 16
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#define EPOCH_TIMESTAMP 1451606400
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const unsigned int months_days[]={31,59,90,120,151,181,212,243,273,304,334}; // days count for each month
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#include <Arduino.h>
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#include <Wire.h>
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extern TwoWire Wire;
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/* arduino class */
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class Rtc_Pcf8563 {
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public:
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Rtc_Pcf8563();
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Rtc_Pcf8563(int, int); /* Construct using different pins for sda & sdl */
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void zeroClock(); /* Zero date/time, alarm / timer, default clkout */
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void clearStatus(); /* set both status bytes to zero */
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byte readStatus2();
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void clearVoltLow(void); /* Only clearing is possible */
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void getDateTime(); /* get date and time vals to local vars */
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void setDateTime(byte day, byte weekday, byte month, bool century, byte year,
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byte hour, byte minute, byte sec);
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void getAlarm(); // same as getDateTime
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bool alarmEnabled(); // true if alarm interrupt is enabled
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bool alarmActive(); // true if alarm is active (going off)
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void enableAlarm(); /* activate alarm flag and interrupt */
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/* set alarm vals, 99=ignore */
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void setAlarm(byte min, byte hour, byte day, byte weekday);
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void clearAlarm(); /* clear alarm flag and interrupt */
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void resetAlarm(); /* clear alarm flag but leave interrupt unchanged */
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bool timerEnabled(); // true if timer and interrupt is enabled
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bool timerActive(); // true if timer is active (going off)
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void enableTimer(void); // activate timer flag and interrupt
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void setTimer(byte value, byte frequency, bool is_pulsed); // set value & frequency
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void clearTimer(void); // clear timer flag, and interrupt, leave value unchanged
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void resetTimer(void); // same as clearTimer() but leave interrupt unchanged */
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void setSquareWave(byte frequency);
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void clearSquareWave();
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/* get a output string, these call getTime/getDate for latest vals */
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const char *formatTime(byte style=RTCC_TIME_HMS);
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/* date supports 3 styles as listed in the wikipedia page about world date/time. */
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const char *formatDate(byte style=RTCC_DATE_US);
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/* Return leap-days between start (inclusive) and end (exclusive) */
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int leapDaysBetween(byte century_start, byte year_start,
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byte century_end, byte year_end) const;
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/* Return True if century (1: 1900, 0:2000) + decade is a leap year. */
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bool isLeapYear(byte century, int year) const;
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/* Return number of days in any month of any decade of any year */
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byte daysInMonth(byte century, byte year, byte month) const;
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/* Return the number of days since the beginning of a particular year*/
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byte daysInYear(byte century, byte year, byte month, byte day) const;
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/* Return the weekday for any date after 1900 */
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byte whatWeekday(byte day, byte month, byte century, int year) const;
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bool getVoltLow();
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byte getSecond();
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byte getMinute();
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byte getHour();
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byte getDay();
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byte getMonth();
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byte getYear();
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bool getCentury();
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byte getWeekday();
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byte getStatus1();
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byte getStatus2();
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byte getAlarmMinute();
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byte getAlarmHour();
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byte getAlarmDay();
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byte getAlarmWeekday();
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byte getTimerControl();
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byte getTimerValue();
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unsigned long getTimestamp(); // return unix timestamp
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// Sets date/time to static fixed values, disable all alarms
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// use zeroClock() above to guarantee lowest possible values instead.
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void initClock();
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// Slightly unsafe, don't use for new code, use above instead!
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void setTime(byte hour, byte minute, byte sec);
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void getTime(); // unsafe, don't use
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void setDate(byte day, byte weekday, byte month, bool century, byte year);
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void getDate(); // unsafe, don't use
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private:
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/* methods */
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byte decToBcd(byte value);
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byte bcdToDec(byte value);
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/* time variables */
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byte hour;
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byte minute;
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bool volt_low;
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byte sec;
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byte day;
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byte weekday;
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byte month;
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byte year;
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/* alarm */
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byte alarm_hour;
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byte alarm_minute;
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byte alarm_weekday;
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byte alarm_day;
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/* CLKOUT */
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byte squareWave;
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/* timer */
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byte timer_control;
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byte timer_value;
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/* support */
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byte status1;
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byte status2;
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bool century;
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char strOut[9];
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char strDate[11];
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int Rtcc_Addr;
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};
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inline int Rtc_Pcf8563::leapDaysBetween(byte century_start, byte year_start,
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byte century_end, byte year_end) const {
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// Credit: Victor Haydin via stackoverflow.com
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int span_start = 2000 - (century_start * 100) + year_start;
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int span_end = 2000 - (century_end * 100) + year_end - 1; // less year_end
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// Subtract leap-years before span_start, from leap-years before span_end
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return ((span_end / 4) - (span_end / 100) + (span_end / 400)) -
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((span_start / 4) - (span_start / 100) + (span_start / 400));
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}
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inline bool Rtc_Pcf8563::isLeapYear(byte century, int year) const
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{
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year = 2000 - (century * 100) + year;
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if ((year % 4) != 0)
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return false;
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else if ((year % 100) != 0)
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return true;
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else if ((year % 400) != 0)
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return false;
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else
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return true;
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}
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inline byte Rtc_Pcf8563::daysInMonth(byte century,
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byte year,
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byte month) const
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{
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const int days[12] = {31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31};
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byte dim = days[month];
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if (month == 2 && isLeapYear(century, year))
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dim += 1;
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return dim;
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}
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inline byte Rtc_Pcf8563::daysInYear(byte century,
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byte year,
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byte month,
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byte day) const
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{
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const int days[12] = {0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334};
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byte total = days[month - 1] + day;
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if ((month > 2) and isLeapYear(century, year))
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total += 1;
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return total;
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}
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inline byte Rtc_Pcf8563::whatWeekday(byte day, byte month,
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byte century, int year) const
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{
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year = 2000 - (century * 100) + year;
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// Credit: Tomohiko Sakamoto
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// http://en.wikipedia.org/wiki/Determination_of_the_day_of_the_week
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year -= month < 3;
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static int trans[] = {0, 3, 2, 5, 0, 3, 5, 1, 4, 6, 2, 4};
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return (year + year / 4 - year / 100 + year / 400 +
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trans[month - 1] + day) % 7;
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}
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#endif
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