bzr branch
http://bzr.ed.am/elec/propeller-clock
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67
by Tim Marston
added realtime clock test |
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#include <../Wire/Wire.h> |
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#include "DS1307.h" |
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DS1307::DS1307() |
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{
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Wire.begin(); |
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} |
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DS1307 RTC=DS1307(); |
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// PRIVATE FUNCTIONS |
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// Aquire data from the RTC chip in BCD format |
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// refresh the buffer |
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void DS1307::read(void) |
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{
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// use the Wire lib to connect to tho rtc |
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// reset the resgiter pointer to zero |
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Wire.beginTransmission(DS1307_CTRL_ID); |
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Wire.write( (unsigned char )0 ); |
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Wire.endTransmission(); |
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// request the 7 bytes of data (secs, min, hr, dow, day, mth, yr) |
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Wire.requestFrom(DS1307_CTRL_ID, 7); |
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for(int i=0; i<7; i++) |
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{
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// store data in raw bcd format |
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rtc_bcd[i]=Wire.read(); |
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} |
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} |
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// update the data on the IC from the bcd formatted data in the buffer |
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void DS1307::save(void) |
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{
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Wire.beginTransmission(DS1307_CTRL_ID); |
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Wire.write( (unsigned char)0 ); // reset register pointer |
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for(int i=0; i<7; i++) |
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{
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Wire.write(rtc_bcd[i]); |
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} |
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Wire.endTransmission(); |
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} |
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// PUBLIC FUNCTIONS |
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void DS1307::get(int *rtc, boolean refresh) // Aquire data from buffer and convert to int, refresh buffer if required |
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{
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if(refresh) read(); |
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for(int i=0;i<7;i++) // cycle through each component, create array of data |
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{
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rtc[i]=get(i, 0); |
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} |
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} |
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int DS1307::get(int c, boolean refresh) // aquire individual RTC item from buffer, return as int, refresh buffer if required |
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{
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if(refresh) read(); |
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int v=-1; |
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switch(c) |
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{
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case DS1307_SEC: |
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v=(10*((rtc_bcd[DS1307_SEC] & DS1307_HI_SEC)>>4))+(rtc_bcd[DS1307_SEC] & DS1307_LO_BCD); |
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break; |
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case DS1307_MIN: |
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v=(10*((rtc_bcd[DS1307_MIN] & DS1307_HI_MIN)>>4))+(rtc_bcd[DS1307_MIN] & DS1307_LO_BCD); |
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break; |
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case DS1307_HR: |
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v=(10*((rtc_bcd[DS1307_HR] & DS1307_HI_HR)>>4))+(rtc_bcd[DS1307_HR] & DS1307_LO_BCD); |
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break; |
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case DS1307_DOW: |
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v=rtc_bcd[DS1307_DOW] & DS1307_LO_DOW; |
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break; |
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case DS1307_DAY: |
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v=(10*((rtc_bcd[DS1307_DAY] & DS1307_HI_DAY)>>4))+(rtc_bcd[DS1307_DAY] & DS1307_LO_BCD); |
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break; |
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case DS1307_MTH: |
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v=(10*((rtc_bcd[DS1307_MTH] & DS1307_HI_MTH)>>4))+(rtc_bcd[DS1307_MTH] & DS1307_LO_BCD); |
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break; |
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case DS1307_YR: |
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v=(10*((rtc_bcd[DS1307_YR] & DS1307_HI_YR)>>4))+(rtc_bcd[DS1307_YR] & DS1307_LO_BCD)+DS1307_BASE_YR; |
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break; |
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} // end switch |
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return v; |
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} |
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void DS1307::set(int c, int v) // Update buffer, then update the chip |
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{
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switch(c) |
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{
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case DS1307_SEC: |
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if(v<60 && v>-1) |
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{
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//preserve existing clock state (running/stopped) |
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int state=rtc_bcd[DS1307_SEC] & DS1307_CLOCKHALT; |
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rtc_bcd[DS1307_SEC]=state | (((v / 10)<<4) + (v % 10)); |
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} |
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break; |
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case DS1307_MIN: |
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if(v<60 && v>-1) |
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{
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rtc_bcd[DS1307_MIN]=((v / 10)<<4) + (v % 10); |
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} |
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break; |
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case DS1307_HR: |
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// TODO : AM/PM 12HR/24HR |
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if(v<24 && v>-1) |
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{
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rtc_bcd[DS1307_HR]=((v / 10)<<4) + (v % 10); |
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} |
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break; |
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case DS1307_DOW: |
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if(v<8 && v>-1) |
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{
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rtc_bcd[DS1307_DOW]=v; |
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} |
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break; |
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case DS1307_DAY: |
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if(v<31 && v>-1) |
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{
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rtc_bcd[DS1307_DAY]=((v / 10)<<4) + (v % 10); |
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} |
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break; |
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case DS1307_MTH: |
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if(v<13 && v>-1) |
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{
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rtc_bcd[DS1307_MTH]=((v / 10)<<4) + (v % 10); |
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} |
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break; |
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case DS1307_YR: |
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if(v<13 && v>-1) |
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{
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rtc_bcd[DS1307_YR]=((v / 10)<<4) + (v % 10); |
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} |
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break; |
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} // end switch |
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save(); |
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} |
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void DS1307::stop(void) |
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{
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// set the ClockHalt bit high to stop the rtc |
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// this bit is part of the seconds byte |
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rtc_bcd[DS1307_SEC]=rtc_bcd[DS1307_SEC] | DS1307_CLOCKHALT; |
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save(); |
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} |
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void DS1307::start(void) |
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{
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// unset the ClockHalt bit to start the rtc |
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// this bit is part of the seconds byte |
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rtc_bcd[DS1307_SEC]=rtc_bcd[DS1307_SEC] & ~DS1307_CLOCKHALT; |
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save(); |
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} |