GY-63_MS5611/libraries/CountDown
2022-10-30 19:56:11 +01:00
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.github add funding.yml 2022-08-03 21:56:07 +02:00
examples 0.2.5 CountDown 2021-10-19 21:40:11 +02:00
test 0.2.7 CountDown 2022-10-30 19:56:11 +01:00
.arduino-ci.yml 0.2.7 CountDown 2022-10-30 19:56:11 +01:00
CHANGELOG.md 0.2.7 CountDown 2022-10-30 19:56:11 +01:00
CountDown.cpp 0.2.7 CountDown 2022-10-30 19:56:11 +01:00
CountDown.h 0.2.7 CountDown 2022-10-30 19:56:11 +01:00
keywords.txt 0.2.6 CountDown 2021-12-14 16:58:45 +01:00
library.json 0.2.7 CountDown 2022-10-30 19:56:11 +01:00
library.properties 0.2.7 CountDown 2022-10-30 19:56:11 +01:00
LICENSE 0.2.6 CountDown 2021-12-14 16:58:45 +01:00
README.md 0.2.7 CountDown 2022-10-30 19:56:11 +01:00

Arduino CI Arduino-lint JSON check License: MIT GitHub release

CountDown

Arduino Library to implement a CountDown clock (in SW polling, no HW timer).

Description

The countdown library is a clock that counts down from a given time to zero. It does not call a function or so as the user is responsible to check the time remaining. Typically one checks the remaining time in every loop().

Under the hood the function uses micros() or millis() which results in a maximum time of 4294 seconds in micros (1h 10m) or about 49+ days when using milliseconds.

For longer periods one could cascade countDown objects, so when one is finished the next one starts.

Note the countdown object is as accurate as the underlying millis() or micros(). Interrupts etc might cause deviations.

Interface

The main functions of the CountDown clock are:

  • CountDown(const enum Resolution res = MILLIS) constructor, with default resolution of milliseconds.
  • bool start(uint32_t ticks) (re)start in current resolution.
  • bool start(uint8_t days, uint16_t hours, uint32_t minutes, uint32_t seconds) Implicit set resolution to SECONDS.
  • bool start(uint8_t days, uint16_t hours, uint32_t minutes) Implicit set resolution to MINUTES.
  • void stop() stop the count-down.
  • void cont() resumes / continue the count-down. (note continue is a C-Keyword)
  • uint32_t remaining() returns the remaining ticks in current resolution.
  • bool isRunning() idem.

These functions work straightforward.

Operation

The function start(days, hours, minutes, seconds) has changed its parameters type to minimize them, given that the total time may not exceed 2^32 milliseconds. This allows the user to call start() with e.g.

  • four hundred minutes start(0, 0, 400, 0)
  • a million seconds start(0, 0, 0, 1000000)
  • a unusual mix start(0, 0, 400, 1000) as parameter. The resolution is implicitly set to CountDown::SECONDS.

Since 0.2.4 the function start() will check if the parameters cause an overflow in the underlying math. If there is no overflow, a call to start() returns true. If there is an overflow, a call to start() returns false.

Total amount of time to countdown for CountDown::MICROS may not exceed 2^32 micros which equals about 1 hour and 10 minutes. Total amount of time to countdown for CountDown::MILLIS, CountDown::SECONDS and CountDown::MINUTES may not exceed 2^32 milliseconds, about 49 days.

The function start(days, hours, minutes) is new since 0.2.2. It also uses millis() under the hood. The resolution is implicitly set to CountDown::MINUTES.

Call to start() resolution max time comments
start(days, hours, minutes, seconds) SECONDS = millis 49+ days
start(days, hours, minutes) MINUTES = millis 49+ days
start(ticks) MILLIS = millis 49+ days default
start(ticks) MICROS = micros ~70 min setResolution(CountDown::MICROS)
start(ticks) SECONDS = millis 49+ days setResolution(CountDown::SECONDS)
start(ticks) MINUTES = millis 49+ days setResolution(CountDown::MINUTES)

The Countdown clock uses by default millis() to do the time keeping, although this can be changed runtime by setResolution(res).

The parameter res can be:

  • CountDown::MICROS // based upon micros()
  • CountDown::MILLIS // default
  • CountDown::SECONDS // based upon millis()
  • CountDown::MINUTES // based upon millis()

Although possible one should not change the resolution of the CountDown clock while it is running as you mix up different timescales.

Watchdog

One can call start(...) at any time to reset the running clock to a new value. This allows to implement a sort of watchdog clock in which e.g. the user must press a button at least once per minute to show he is still awake.

Future

must

  • documentation

should

could

  • incorporate a real time clock
    • or EEPROM to be reboot proof?
  • examples
    • visualisations - hexadecimal - alphabetical (radix 26)
    • depends on sensor
  • uint64_t version ==> CountDown64 class? (only on request)
    • would be useful for micros() in theory but drift / interrupts would make it fail.
    • countdown with a big number e.g. billions/ second ==> national deficit coounter.

wont

  • Countdown based upon external pulses.
    • pulse counter