https://github.com/JChristensen/Timezone
README file
Jack Christensen Mar 2012
The Timezone library is designed to work in conjunction with the Arduino Time library, which must also be installed on your system. This documentation assumes some familiarity with the Time library.
The primary aim of the Timezone library is to convert Universal Coordinated Time (UTC) to the correct local time, whether it is daylight saving time (a.k.a. summer time) or standard time. The time source could be a GPS receiver, an NTP server, or a Real-Time Clock (RTC) set to UTC. But whether a hardware RTC or other time source is even present is immaterial, since the Time library can function as a software RTC without additional hardware (although its accuracy is dependent on the accuracy of the microcontroller's system clock.)
The Timezone library implements two objects to facilitate time zone conversions:
- A TimeChangeRule object describes when local time changes to daylight (summer) time, or to standard time, for a particular locale.
- A Timezone object uses TimeChangeRules to perform conversions and related functions. It can also write its TimeChangeRules to EEPROM, or read them from EEPROM. Multiple time zones can be represented by defining multiple Timezone objects.
The following example sketches are included with the Timezone library:
- Clock: A simple self-adjusting clock for a single time zone. TimeChangeRules may be optionally read from EEPROM.
- HardwareRTC: A self-adjusting clock for one time zone using an external real-time clock, either a DS1307 or DS3231 (e.g. Chronodot) which is set to UTC.
- WorldClock: A self-adjusting clock for multiple time zones.
- WriteRules: A sketch to write TimeChangeRules to EEPROM.
- Change_TZ_1: Changes between time zones by modifying the TimeChangeRules.
- Change_TZ_2: Changes between time zones by selecting from an array of Timezone objects.
Normally these will be coded in pairs for a given time zone: One rule to describe when daylight (summer) time starts, and one to describe when standard time starts.
As an example, here in the Eastern US time zone, Eastern Daylight Time (EDT) starts on the 2nd Sunday in March at 02:00 local time. Eastern Standard Time (EST) starts on the 1st Sunday in November at 02:00 local time.
Define a TimeChangeRule as follows:
TimeChangeRule myRule = {abbrev, week, dow, month, hour, offset};
Where:
abbrev is a character string abbreviation for the time zone; it must be no longer than five characters.
week is the week of the month that the rule starts.
dow is the day of the week that the rule starts.
hour is the hour in local time that the rule starts (0-23).
offset is the UTC offset in minutes for the time zone being defined.
For convenience, the following symbolic names can be used:
week: First, Second, Third, Fourth, Last
dow: Sun, Mon, Tue, Wed, Thu, Fri, Sat
month: Jan, Feb, Mar, Apr, May, Jun, Jul, Aug, Sep, Oct, Nov, Dec
For the Eastern US time zone, the TimeChangeRules could be defined as follows:
TimeChangeRule usEDT = {"EDT", Second, Sun, Mar, 2, -240}; //UTC - 4 hours
TimeChangeRule usEST = {"EST", First, Sun, Nov, 2, -300}; //UTC - 5 hours
For a time zone that does not change to daylight/summer time, pass the same rule twice to the constructor, for example:
Timezone usAZ(usMST, usMST);
There are two ways to define Timezone objects.
By first defining TimeChangeRules (as above) and giving the daylight time rule and the standard time rule (assuming usEDT and usEST defined as above):
Timezone usEastern(usEDT, usEST);
By reading rules previously stored in EEPROM. This reads both the daylight and standard time rules previously stored at EEPROM address 100:
Timezone usPacific(100);
Note that TimeChangeRules require 12 bytes of storage each, so the pair of rules associated with a Timezone object requires 24 bytes total. This could possibly change in future versions of the library. The size of a TimeChangeRule can be checked with sizeof(usEDT)
.
Note that the time_t
data type is defined by the Arduino Time library <TimeLib.h>. See the Time library documentation here and here for additional details.
Converts the given UTC time to local time, standard or daylight as appropriate.
myTZ.toLocal(utc);
utc: Universal Coordinated Time (time_t)
Local time (time_t)
time_t eastern, utc;
TimeChangeRule usEDT = {"EDT", Second, Sun, Mar, 2, -240}; //UTC - 4 hours
TimeChangeRule usEST = {"EST", First, Sun, Nov, 2, -300}; //UTC - 5 hours
Timezone usEastern(usEDT, usEST);
utc = now(); //current time from the Time Library
eastern = usEastern.toLocal(utc);
As above, converts the given UTC time to local time, and also returns a pointer to the TimeChangeRule that was applied to do the conversion. This could then be used, for example, to include the time zone abbreviation as part of a time display. The caller must take care not to alter the pointed TimeChangeRule, as this will then result in incorrect conversions.
myTZ.toLocal(utc, &tcr);
utc: Universal Coordinated Time (time_t)
tcr: Address of a pointer to a TimeChangeRule (**TimeChangeRule)
Local time (time_t)
Pointer to TimeChangeRule (**TimeChangeRule)
time_t eastern, utc;
TimeChangeRule *tcr;
TimeChangeRule usEDT = {"EDT", Second, Sun, Mar, 2, -240}; //UTC - 4 hours
TimeChangeRule usEST = {"EST", First, Sun, Nov, 2, -300}; //UTC - 5 hours
Timezone usEastern(usEDT, usEST);
utc = now(); //current time from the Time Library
eastern = usEastern.toLocal(utc, &tcr);
Serial.print("The time zone is: ");
Serial.println(tcr -> abbrev);
These functions determine whether a given UTC time or a given local time is within the daylight saving (summer) time interval, and return true or false accordingly.
utcIsDST(utc);
locIsDST(local);
utc: Universal Coordinated Time (time_t)
local: Local Time (time_t)
true or false (bool)
if (usEastern.utcIsDST(utc)) { /*do something*/ }
These functions read or write a Timezone object's two TimeChangeRules from or to EEPROM.
myTZ.readRules(address);
myTZ.writeRules(address);
address: The beginning EEPROM address to write to or read from (int)
None.
usEastern.writeRules(100); //write rules beginning at EEPROM address 100
This function reads or updates the daylight and standard time rules from RAM. Can be used to change TimeChangeRules dynamically while a sketch runs.
myTZ.setRules(dstStart, stdStart);
dstStart: A TimeChangeRule denoting the start of daylight saving (summer) time.
stdStart: A TimeChangeRule denoting the start of standard time.
None.
TimeChangeRule EDT = {"EDT", Second, Sun, Mar, 2, -240};
TimeChangeRule EST = {"EST", First, Sun, Nov, 2, -300};
Timezone ET(EDT, EST);
...
tz.setRules(EDT, EST);
Converts the given local time to UTC time.
WARNING: This function is provided for completeness, but should seldom be needed and should be used sparingly and carefully.
Ambiguous situations occur after the Standard-to-DST and the DST-to-Standard time transitions. When changing to DST, there is one hour of local time that does not exist, since the clock moves forward one hour. Similarly, when changing to standard time, there is one hour of local time that occurs twice since the clock moves back one hour.
This function does not test whether it is passed an erroneous time value during the Local-to-DST transition that does not exist. If passed such a time, an incorrect UTC time value will be returned.
If passed a local time value during the DST-to-Local transition that occurs twice, it will be treated as the earlier time, i.e. the time that occurs before the transition.
Calling this function with local times during a transition interval should be avoided!
myTZ.toUTC(local);
local: Local Time (time_t)
UTC (time_t)