Update to rtcc 0.3

pull/9/head
Diego Barrios Romero 2022-02-20 10:17:55 +01:00
parent fd66a531e2
commit 774b3cf527
12 changed files with 157 additions and 167 deletions

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@ -7,7 +7,10 @@ and this project adheres to [Semantic Versioning](http://semver.org/spec/v2.0.0.
## [Unreleased] ## [Unreleased]
... ### Changed
- [breaking-change] Update `rtcc` to version 0.3.
- [breaking-change] Remove `get_` from all public method names to comply with the Rust API guidelines.
## [0.4.0] - 2021-05-22 ## [0.4.0] - 2021-05-22

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@ -21,8 +21,8 @@ include = [
edition = "2018" edition = "2018"
[dependencies] [dependencies]
embedded-hal = "0.2.6" embedded-hal = "0.2.7"
rtcc = "0.2.1" rtcc = "0.3"
[dev-dependencies] [dev-dependencies]
embedded-hal-mock = "0.8.0" embedded-hal-mock = "0.8.0"

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@ -1,4 +1,4 @@
Copyright (C) 2018-2021 Diego Barrios Romero Copyright (C) 2018-2022 Diego Barrios Romero
Permission is hereby granted, free of charge, to any person obtaining a copy of Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and associated documentation files (the "Software"), to deal in this software and associated documentation files (the "Software"), to deal in

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@ -12,8 +12,8 @@ extremely accurate real-time clocks, based on the [`embedded-hal`] traits.
[`embedded-hal`]: https://github.com/rust-embedded/embedded-hal [`embedded-hal`]: https://github.com/rust-embedded/embedded-hal
This driver allows you to: This driver allows you to:
- Read and set date and time in 12-hour and 24-hour format. See: `get_datetime`. - Read and set date and time in 12-hour and 24-hour format. See: `datetime`.
- Read and set date and time individual elements. For example, see: `get_year`. - Read and set date and time individual elements. For example, see: `year`.
- Enable and disable the real-time clock. See: `enable`. - Enable and disable the real-time clock. See: `enable`.
- Read the busy status. See `busy`. - Read the busy status. See `busy`.
- Read whether the oscillator is or has been stopped. See `has_been_stopped`. - Read whether the oscillator is or has been stopped. See `has_been_stopped`.
@ -32,7 +32,7 @@ This driver allows you to:
- Enable and disable the 32kHz output. See `enable_32khz_output`. - Enable and disable the 32kHz output. See `enable_32khz_output`.
- Enable and disable the 32kHz output when battery powered. See `enable_32khz_output_on_battery`. - Enable and disable the 32kHz output when battery powered. See `enable_32khz_output_on_battery`.
- Temperature conversion: - Temperature conversion:
- Read the temperature. See `get_temperature`. - Read the temperature. See `temperature`.
- Force a temperature conversion and time compensation. See `convert_temperature`. - Force a temperature conversion and time compensation. See `convert_temperature`.
- Set the temperature conversion rate. See `set_temperature_conversion_rate`. - Set the temperature conversion rate. See `set_temperature_conversion_rate`.
- Enable and disable the temperature conversions when battery-powered. See `enable_temperature_conversions_on_battery`. - Enable and disable the temperature conversions when battery-powered. See `enable_temperature_conversions_on_battery`.
@ -111,7 +111,7 @@ Please find additional examples using hardware in this repository: [driver-examp
[driver-examples]: https://github.com/eldruin/driver-examples [driver-examples]: https://github.com/eldruin/driver-examples
```rust ```rust
use ds323x::{Ds323x, NaiveDate, Rtcc}; use ds323x::{DateTimeAccess, Ds323x, NaiveDate, Rtcc};
use linux_embedded_hal::I2cdev; use linux_embedded_hal::I2cdev;
fn main() { fn main() {
@ -120,7 +120,7 @@ fn main() {
let datetime = NaiveDate::from_ymd(2020, 5, 1).and_hms(19, 59, 58); let datetime = NaiveDate::from_ymd(2020, 5, 1).and_hms(19, 59, 58);
rtc.set_datetime(&datetime).unwrap(); rtc.set_datetime(&datetime).unwrap();
// do something else... // do something else...
let time = rtc.get_time().unwrap(); let time = rtc.time().unwrap();
println!("Time: {}", time); println!("Time: {}", time);
let _dev = rtc.destroy_ds3231(); let _dev = rtc.destroy_ds3231();

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@ -1,4 +1,4 @@
use ds323x::{Ds323x, NaiveDate, Rtcc}; use ds323x::{DateTimeAccess, Ds323x, NaiveDate, Rtcc};
use linux_embedded_hal::I2cdev; use linux_embedded_hal::I2cdev;
fn main() { fn main() {
@ -7,7 +7,7 @@ fn main() {
let datetime = NaiveDate::from_ymd(2020, 5, 1).and_hms(19, 59, 58); let datetime = NaiveDate::from_ymd(2020, 5, 1).and_hms(19, 59, 58);
rtc.set_datetime(&datetime).unwrap(); rtc.set_datetime(&datetime).unwrap();
// do something else... // do something else...
let time = rtc.get_time().unwrap(); let time = rtc.time().unwrap();
println!("Time: {}", time); println!("Time: {}", time);
let _dev = rtc.destroy_ds3231(); let _dev = rtc.destroy_ds3231();

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@ -53,7 +53,7 @@ where
} }
/// Read the aging offset. /// Read the aging offset.
pub fn get_aging_offset(&mut self) -> Result<i8, Error<CommE, PinE>> { pub fn aging_offset(&mut self) -> Result<i8, Error<CommE, PinE>> {
let offset = self.iface.read_register(Register::AGING_OFFSET)?; let offset = self.iface.read_register(Register::AGING_OFFSET)?;
Ok(offset as i8) Ok(offset as i8)
} }

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@ -5,79 +5,17 @@ use super::{
}; };
use crate::{ use crate::{
interface::{ReadData, WriteData}, interface::{ReadData, WriteData},
BitFlags, Datelike, Ds323x, Error, Hours, NaiveDate, NaiveDateTime, NaiveTime, Register, Rtcc, BitFlags, DateTimeAccess, Datelike, Ds323x, Error, Hours, NaiveDate, NaiveDateTime, NaiveTime,
Timelike, Register, Rtcc, Timelike,
}; };
impl<DI, IC, CommE, PinE> Rtcc for Ds323x<DI, IC> impl<DI, IC, CommE, PinE> DateTimeAccess for Ds323x<DI, IC>
where where
DI: ReadData<Error = Error<CommE, PinE>> + WriteData<Error = Error<CommE, PinE>>, DI: ReadData<Error = Error<CommE, PinE>> + WriteData<Error = Error<CommE, PinE>>,
{ {
type Error = Error<CommE, PinE>; type Error = Error<CommE, PinE>;
fn get_seconds(&mut self) -> Result<u8, Self::Error> { fn datetime(&mut self) -> Result<NaiveDateTime, Self::Error> {
self.read_register_decimal(Register::SECONDS)
}
fn get_minutes(&mut self) -> Result<u8, Self::Error> {
self.read_register_decimal(Register::MINUTES)
}
fn get_hours(&mut self) -> Result<Hours, Self::Error> {
let data = self.iface.read_register(Register::HOURS)?;
Ok(hours_from_register(data))
}
fn get_time(&mut self) -> Result<NaiveTime, Self::Error> {
let mut data = [0; 4];
self.iface.read_data(&mut data)?;
let hour = hours_from_register(data[Register::HOURS as usize + 1]);
let minute = packed_bcd_to_decimal(data[Register::MINUTES as usize + 1]);
let second = packed_bcd_to_decimal(data[Register::SECONDS as usize + 1]);
let time = NaiveTime::from_hms_opt(get_h24(hour).into(), minute.into(), second.into());
some_or_invalid_error(time)
}
fn get_weekday(&mut self) -> Result<u8, Self::Error> {
self.read_register_decimal(Register::DOW)
}
fn get_day(&mut self) -> Result<u8, Self::Error> {
self.read_register_decimal(Register::DOM)
}
fn get_month(&mut self) -> Result<u8, Self::Error> {
let data = self.iface.read_register(Register::MONTH)?;
let value = data & !BitFlags::CENTURY;
Ok(packed_bcd_to_decimal(value))
}
fn get_year(&mut self) -> Result<u16, Self::Error> {
let mut data = [0; 3];
data[0] = Register::MONTH;
self.iface.read_data(&mut data)?;
Ok(year_from_registers(data[1], data[2]))
}
fn get_date(&mut self) -> Result<NaiveDate, Self::Error> {
let mut data = [0; 4];
data[0] = Register::DOM;
self.iface.read_data(&mut data)?;
let offset = Register::DOM as usize;
let year = year_from_registers(
data[Register::MONTH as usize + 1 - offset],
data[Register::YEAR as usize + 1 - offset],
);
let month =
packed_bcd_to_decimal(data[Register::MONTH as usize + 1 - offset] & !BitFlags::CENTURY);
let day = packed_bcd_to_decimal(data[Register::DOM as usize + 1 - offset]);
let date = NaiveDate::from_ymd_opt(year.into(), month.into(), day.into());
some_or_invalid_error(date)
}
fn get_datetime(&mut self) -> Result<NaiveDateTime, Self::Error> {
let mut data = [0; 8]; let mut data = [0; 8];
self.iface.read_data(&mut data)?; self.iface.read_data(&mut data)?;
@ -97,6 +35,91 @@ where
some_or_invalid_error(datetime) some_or_invalid_error(datetime)
} }
fn set_datetime(&mut self, datetime: &NaiveDateTime) -> Result<(), Self::Error> {
if datetime.year() < 2000 || datetime.year() > 2100 {
return Err(Error::InvalidInputData);
}
let (month, year) = month_year_to_registers(datetime.month() as u8, datetime.year() as u16);
let mut payload = [
Register::SECONDS,
decimal_to_packed_bcd(datetime.second() as u8),
decimal_to_packed_bcd(datetime.minute() as u8),
hours_to_register(Hours::H24(datetime.hour() as u8))?,
datetime.weekday().number_from_sunday() as u8,
decimal_to_packed_bcd(datetime.day() as u8),
month,
year,
];
self.iface.write_data(&mut payload)
}
}
impl<DI, IC, CommE, PinE> Rtcc for Ds323x<DI, IC>
where
DI: ReadData<Error = Error<CommE, PinE>> + WriteData<Error = Error<CommE, PinE>>,
{
fn seconds(&mut self) -> Result<u8, Self::Error> {
self.read_register_decimal(Register::SECONDS)
}
fn minutes(&mut self) -> Result<u8, Self::Error> {
self.read_register_decimal(Register::MINUTES)
}
fn hours(&mut self) -> Result<Hours, Self::Error> {
let data = self.iface.read_register(Register::HOURS)?;
Ok(hours_from_register(data))
}
fn time(&mut self) -> Result<NaiveTime, Self::Error> {
let mut data = [0; 4];
self.iface.read_data(&mut data)?;
let hour = hours_from_register(data[Register::HOURS as usize + 1]);
let minute = packed_bcd_to_decimal(data[Register::MINUTES as usize + 1]);
let second = packed_bcd_to_decimal(data[Register::SECONDS as usize + 1]);
let time = NaiveTime::from_hms_opt(get_h24(hour).into(), minute.into(), second.into());
some_or_invalid_error(time)
}
fn weekday(&mut self) -> Result<u8, Self::Error> {
self.read_register_decimal(Register::DOW)
}
fn day(&mut self) -> Result<u8, Self::Error> {
self.read_register_decimal(Register::DOM)
}
fn month(&mut self) -> Result<u8, Self::Error> {
let data = self.iface.read_register(Register::MONTH)?;
let value = data & !BitFlags::CENTURY;
Ok(packed_bcd_to_decimal(value))
}
fn year(&mut self) -> Result<u16, Self::Error> {
let mut data = [0; 3];
data[0] = Register::MONTH;
self.iface.read_data(&mut data)?;
Ok(year_from_registers(data[1], data[2]))
}
fn date(&mut self) -> Result<NaiveDate, Self::Error> {
let mut data = [0; 4];
data[0] = Register::DOM;
self.iface.read_data(&mut data)?;
let offset = Register::DOM as usize;
let year = year_from_registers(
data[Register::MONTH as usize + 1 - offset],
data[Register::YEAR as usize + 1 - offset],
);
let month =
packed_bcd_to_decimal(data[Register::MONTH as usize + 1 - offset] & !BitFlags::CENTURY);
let day = packed_bcd_to_decimal(data[Register::DOM as usize + 1 - offset]);
let date = NaiveDate::from_ymd_opt(year.into(), month.into(), day.into());
some_or_invalid_error(date)
}
fn set_seconds(&mut self, seconds: u8) -> Result<(), Self::Error> { fn set_seconds(&mut self, seconds: u8) -> Result<(), Self::Error> {
if seconds > 59 { if seconds > 59 {
return Err(Error::InvalidInputData); return Err(Error::InvalidInputData);
@ -187,24 +210,6 @@ where
]; ];
self.iface.write_data(&mut payload) self.iface.write_data(&mut payload)
} }
fn set_datetime(&mut self, datetime: &NaiveDateTime) -> Result<(), Self::Error> {
if datetime.year() < 2000 || datetime.year() > 2100 {
return Err(Error::InvalidInputData);
}
let (month, year) = month_year_to_registers(datetime.month() as u8, datetime.year() as u16);
let mut payload = [
Register::SECONDS,
decimal_to_packed_bcd(datetime.second() as u8),
decimal_to_packed_bcd(datetime.minute() as u8),
hours_to_register(Hours::H24(datetime.hour() as u8))?,
datetime.weekday().number_from_sunday() as u8,
decimal_to_packed_bcd(datetime.day() as u8),
month,
year,
];
self.iface.write_data(&mut payload)
}
} }
impl<DI, IC, CommE, PinE> Ds323x<DI, IC> impl<DI, IC, CommE, PinE> Ds323x<DI, IC>

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@ -80,7 +80,7 @@ where
/// ///
/// Note: It is possible to manually force a temperature conversion with /// Note: It is possible to manually force a temperature conversion with
/// [`convert_temperature()`](#method.convert_temperature) /// [`convert_temperature()`](#method.convert_temperature)
pub fn get_temperature(&mut self) -> Result<f32, Error<CommE, PinE>> { pub fn temperature(&mut self) -> Result<f32, Error<CommE, PinE>> {
let mut data = [Register::TEMP_MSB, 0, 0]; let mut data = [Register::TEMP_MSB, 0, 0];
self.iface.read_data(&mut data)?; self.iface.read_data(&mut data)?;
let is_negative = (data[1] & 0b1000_0000) != 0; let is_negative = (data[1] & 0b1000_0000) != 0;

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@ -4,8 +4,8 @@
//! [`embedded-hal`]: https://github.com/rust-embedded/embedded-hal //! [`embedded-hal`]: https://github.com/rust-embedded/embedded-hal
//! //!
//! This driver allows you to: //! This driver allows you to:
//! - Read and set date and time in 12-hour and 24-hour format. See: [`get_datetime`]. //! - Read and set date and time in 12-hour and 24-hour format. See: [`datetime`].
//! - Read and set date and time individual elements. For example, see: [`get_year`]. //! - Read and set date and time individual elements. For example, see: [`year`].
//! - Enable and disable the real-time clock. See: [`enable`]. //! - Enable and disable the real-time clock. See: [`enable`].
//! - Read the busy status. See [`busy`]. //! - Read the busy status. See [`busy`].
//! - Read whether the oscillator is or has been stopped. See [`has_been_stopped`]. //! - Read whether the oscillator is or has been stopped. See [`has_been_stopped`].
@ -24,32 +24,32 @@
//! - Enable and disable the 32kHz output. See [`enable_32khz_output`]. //! - Enable and disable the 32kHz output. See [`enable_32khz_output`].
//! - Enable and disable the 32kHz output when battery powered. See [`enable_32khz_output_on_battery`]. //! - Enable and disable the 32kHz output when battery powered. See [`enable_32khz_output_on_battery`].
//! - Temperature conversion: //! - Temperature conversion:
//! - Read the temperature. See [`get_temperature`]. //! - Read the temperature. See [`temperature`].
//! - Force a temperature conversion and time compensation. See [`convert_temperature`]. //! - Force a temperature conversion and time compensation. See [`convert_temperature`].
//! - Set the temperature conversion rate. See [`set_temperature_conversion_rate`]. //! - Set the temperature conversion rate. See [`set_temperature_conversion_rate`].
//! - Enable and disable the temperature conversions when battery-powered. See [`enable_temperature_conversions_on_battery`]. //! - Enable and disable the temperature conversions when battery-powered. See [`enable_temperature_conversions_on_battery`].
//! //!
//! [`get_datetime`]: struct.Ds323x.html#method.get_datetime //! [`datetime`]: Ds323x::datetime
//! [`get_year`]: struct.Ds323x.html#method.get_year //! [`year`]: Ds323x::year
//! [`enable`]: struct.Ds323x.html#method.enable //! [`enable`]: Ds323x::enable
//! [`get_temperature`]: struct.Ds323x.html#method.get_temperature //! [`temperature`]: Ds323x::temperature
//! [`convert_temperature`]: struct.Ds323x.html#method.convert_temperature //! [`convert_temperature`]: Ds323x::convert_temperature
//! [`busy`]: struct.Ds323x.html#method.busy //! [`busy`]: Ds323x::busy
//! [`has_been_stopped`]: struct.Ds323x.html#method.has_been_stopped //! [`has_been_stopped`]: Ds323x::has_been_stopped
//! [`clear_has_been_stopped_flag`]: struct.Ds323x.html#method.clear_has_been_stopped_flag //! [`clear_has_been_stopped_flag`]: Ds323x::clear_has_been_stopped_flag
//! [`set_aging_offset`]: struct.Ds323x.html#method.set_aging_offset //! [`set_aging_offset`]: Ds323x::set_aging_offset
//! [`enable_32khz_output`]: struct.Ds323x.html#method.enable_32khz_output //! [`enable_32khz_output`]: Ds323x::enable_32khz_output
//! [`use_int_sqw_output_as_interrupt`]: struct.Ds323x.html#method.use_int_sqw_output_as_interrupt //! [`use_int_sqw_output_as_interrupt`]: Ds323x::use_int_sqw_output_as_interrupt
//! [`enable_square_wave`]: struct.Ds323x.html#method.enable_square_wave //! [`enable_square_wave`]: Ds323x::enable_square_wave
//! [`set_square_wave_frequency`]: struct.Ds323x.html#method.set_square_wave_frequency //! [`set_square_wave_frequency`]: Ds323x::set_square_wave_frequency
//! [`set_alarm1_day`]: struct.Ds323x.html#method.set_alarm1_day //! [`set_alarm1_day`]: Ds323x::set_alarm1_day
//! [`set_alarm1_hms`]: struct.Ds323x.html#method.set_alarm1_hms //! [`set_alarm1_hms`]: Ds323x::set_alarm1_hms
//! [`has_alarm1_matched`]: struct.Ds323x.html#method.has_alarm1_matched //! [`has_alarm1_matched`]: Ds323x::has_alarm1_matched
//! [`clear_alarm1_matched_flag`]: struct.Ds323x.html#method.clear_alarm1_matched_flag //! [`clear_alarm1_matched_flag`]: Ds323x::clear_alarm1_matched_flag
//! [`enable_alarm1_interrupts`]: struct.Ds323x.html#method.enable_alarm1_interrupts //! [`enable_alarm1_interrupts`]: Ds323x::enable_alarm1_interrupts
//! [`enable_32khz_output_on_battery`]: struct.Ds323x.html#method.enable_32khz_output_on_battery //! [`enable_32khz_output_on_battery`]: Ds323x::enable_32khz_output_on_battery
//! [`set_temperature_conversion_rate`]: struct.Ds323x.html#method.set_temperature_conversion_rate //! [`set_temperature_conversion_rate`]: Ds323x::set_temperature_conversion_rate
//! [`enable_temperature_conversions_on_battery`]: struct.Ds323x.html#method.enable_temperature_conversions_on_battery //! [`enable_temperature_conversions_on_battery`]: Ds323x::enable_temperature_conversions_on_battery
//! //!
//! ## The devices //! ## The devices
//! //!
@ -198,7 +198,7 @@
//! ### Set the current date and time at once //! ### Set the current date and time at once
//! //!
//! ```no_run //! ```no_run
//! use ds323x::{Ds323x, NaiveDate, Rtcc}; //! use ds323x::{Ds323x, NaiveDate, DateTimeAccess};
//! use linux_embedded_hal::I2cdev; //! use linux_embedded_hal::I2cdev;
//! //!
//! let dev = I2cdev::new("/dev/i2c-1").unwrap(); //! let dev = I2cdev::new("/dev/i2c-1").unwrap();
@ -210,12 +210,12 @@
//! ### Get the current date and time at once //! ### Get the current date and time at once
//! //!
//! ```no_run //! ```no_run
//! use ds323x::{Ds323x, Rtcc}; //! use ds323x::{Ds323x, DateTimeAccess};
//! use linux_embedded_hal::I2cdev; //! use linux_embedded_hal::I2cdev;
//! //!
//! let dev = I2cdev::new("/dev/i2c-1").unwrap(); //! let dev = I2cdev::new("/dev/i2c-1").unwrap();
//! let mut rtc = Ds323x::new_ds3231(dev); //! let mut rtc = Ds323x::new_ds3231(dev);
//! let dt = rtc.get_datetime().unwrap(); //! let dt = rtc.datetime().unwrap();
//! println!("{}", dt); //! println!("{}", dt);
//! // This will print something like: 2020-05-01 19:59:58 //! // This will print something like: 2020-05-01 19:59:58
//! ``` //! ```
@ -230,7 +230,7 @@
//! //!
//! let dev = I2cdev::new("/dev/i2c-1").unwrap(); //! let dev = I2cdev::new("/dev/i2c-1").unwrap();
//! let mut rtc = Ds323x::new_ds3231(dev); //! let mut rtc = Ds323x::new_ds3231(dev);
//! let year = rtc.get_year().unwrap(); //! let year = rtc.year().unwrap();
//! println!("Year: {}", year); //! println!("Year: {}", year);
//! ``` //! ```
//! //!
@ -270,7 +270,7 @@
//! //!
//! let dev = I2cdev::new("/dev/i2c-1").unwrap(); //! let dev = I2cdev::new("/dev/i2c-1").unwrap();
//! let mut rtc = Ds323x::new_ds3231(dev); //! let mut rtc = Ds323x::new_ds3231(dev);
//! let temperature = rtc.get_temperature().unwrap(); //! let temperature = rtc.temperature().unwrap();
//! ``` //! ```
//! //!
//! ### Read busy status //! ### Read busy status
@ -392,7 +392,9 @@
use core::marker::PhantomData; use core::marker::PhantomData;
use embedded_hal::spi::{Mode, MODE_1, MODE_3}; use embedded_hal::spi::{Mode, MODE_1, MODE_3};
pub use rtcc::{Datelike, Hours, NaiveDate, NaiveDateTime, NaiveTime, Rtcc, Timelike}; pub use rtcc::{
DateTimeAccess, Datelike, Hours, NaiveDate, NaiveDateTime, NaiveTime, Rtcc, Timelike,
};
/// SPI mode 1 (CPOL = 0, CPHA = 1) /// SPI mode 1 (CPOL = 0, CPHA = 1)
pub const SPI_MODE_1: Mode = MODE_1; pub const SPI_MODE_1: Mode = MODE_1;

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@ -220,18 +220,12 @@ set_param_test!(
get_param_test!( get_param_test!(
get_aging_offset_min, get_aging_offset_min,
get_aging_offset, aging_offset,
AGING_OFFSET, AGING_OFFSET,
-128, -128,
0b1000_0000 0b1000_0000
); );
get_param_test!( get_param_test!(get_aging_offset_max, aging_offset, AGING_OFFSET, 127, 127);
get_aging_offset_max,
get_aging_offset,
AGING_OFFSET,
127,
127
);
call_method_test!( call_method_test!(
int_sqw_out_int, int_sqw_out_int,

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@ -6,7 +6,7 @@ use self::common::{
}; };
#[allow(unused)] // Rust 1.31.0 is confused due to the macros #[allow(unused)] // Rust 1.31.0 is confused due to the macros
use ds323x::Rtcc; use ds323x::Rtcc;
use ds323x::{Error, Hours, NaiveDate, NaiveTime}; use ds323x::{DateTimeAccess, Error, Hours, NaiveDate, NaiveTime};
macro_rules! read_set_param_write_two_test { macro_rules! read_set_param_write_two_test {
($name:ident, $method:ident, $value:expr, $register:ident, $binary_value1_read:expr, $bin1:expr, $bin2:expr) => { ($name:ident, $method:ident, $value:expr, $register:ident, $binary_value1_read:expr, $bin1:expr, $bin2:expr) => {
@ -113,76 +113,69 @@ macro_rules! for_all {
mod seconds { mod seconds {
use super::*; use super::*;
get_param_test!(get, get_seconds, SECONDS, 1, 1); get_param_test!(get, seconds, SECONDS, 1, 1);
set_param_test!(set, set_seconds, SECONDS, 1, 1); set_param_test!(set, set_seconds, SECONDS, 1, 1);
set_invalid_param_test!(invalid, set_seconds, 60); set_invalid_param_test!(invalid, set_seconds, 60);
} }
mod minutes { mod minutes {
use super::*; use super::*;
get_param_test!(get, get_minutes, MINUTES, 1, 1); get_param_test!(get, minutes, MINUTES, 1, 1);
set_param_test!(set, set_minutes, MINUTES, 1, 1); set_param_test!(set, set_minutes, MINUTES, 1, 1);
set_invalid_param_test!(invalid, set_minutes, 60); set_invalid_param_test!(invalid, set_minutes, 60);
} }
mod hours_24h { mod hours_24h {
use super::*; use super::*;
get_param_test!(get, get_hours, HOURS, Hours::H24(21), 0b0010_0001); get_param_test!(get, hours, HOURS, Hours::H24(21), 0b0010_0001);
set_param_test!(set, set_hours, HOURS, Hours::H24(21), 0b0010_0001); set_param_test!(set, set_hours, HOURS, Hours::H24(21), 0b0010_0001);
set_invalid_param_test!(invalid, set_hours, Hours::H24(24)); set_invalid_param_test!(invalid, set_hours, Hours::H24(24));
} }
mod hours_12h_am { mod hours_12h_am {
use super::*; use super::*;
get_param_test!(get, get_hours, HOURS, Hours::AM(12), 0b0101_0010); get_param_test!(get, hours, HOURS, Hours::AM(12), 0b0101_0010);
set_param_test!(set, set_hours, HOURS, Hours::AM(12), 0b0101_0010); set_param_test!(set, set_hours, HOURS, Hours::AM(12), 0b0101_0010);
set_invalid_param_range_test!(invalid, set_hours, Hours::AM(0), Hours::AM(13)); set_invalid_param_range_test!(invalid, set_hours, Hours::AM(0), Hours::AM(13));
} }
mod hours_12h_pm { mod hours_12h_pm {
use super::*; use super::*;
get_param_test!(get, get_hours, HOURS, Hours::PM(12), 0b0111_0010); get_param_test!(get, hours, HOURS, Hours::PM(12), 0b0111_0010);
set_param_test!(set, set_hours, HOURS, Hours::PM(12), 0b0111_0010); set_param_test!(set, set_hours, HOURS, Hours::PM(12), 0b0111_0010);
set_invalid_param_range_test!(invalid, set_hours, Hours::PM(0), Hours::PM(13)); set_invalid_param_range_test!(invalid, set_hours, Hours::PM(0), Hours::PM(13));
} }
mod weekday { mod weekday {
use super::*; use super::*;
get_param_test!(get, get_weekday, DOW, 1, 1); get_param_test!(get, weekday, DOW, 1, 1);
set_param_test!(set, set_weekday, DOW, 1, 1); set_param_test!(set, set_weekday, DOW, 1, 1);
set_invalid_param_range_test!(invalid, set_weekday, 0, 8); set_invalid_param_range_test!(invalid, set_weekday, 0, 8);
} }
mod day { mod day {
use super::*; use super::*;
get_param_test!(get, get_day, DOM, 1, 1); get_param_test!(get, day, DOM, 1, 1);
set_param_test!(set, set_day, DOM, 1, 1); set_param_test!(set, set_day, DOM, 1, 1);
set_invalid_param_range_test!(invalid, set_day, 0, 32); set_invalid_param_range_test!(invalid, set_day, 0, 32);
} }
mod month { mod month {
use super::*; use super::*;
get_param_test!(get, get_month, MONTH, 1, 1); get_param_test!(get, month, MONTH, 1, 1);
read_set_param_test!(set, set_month, MONTH, 12, 0b0000_0010, 0b0001_0010); read_set_param_test!(set, set_month, MONTH, 12, 0b0000_0010, 0b0001_0010);
set_invalid_param_range_test!(invalid, set_month, 0, 13); set_invalid_param_range_test!(invalid, set_month, 0, 13);
mod keeps_century { mod keeps_century {
use super::*; use super::*;
get_param_test!(get, get_month, MONTH, 12, 0b1001_0010); get_param_test!(get, month, MONTH, 12, 0b1001_0010);
read_set_param_test!(set, set_month, MONTH, 12, 0b1000_0010, 0b1001_0010); read_set_param_test!(set, set_month, MONTH, 12, 0b1000_0010, 0b1001_0010);
} }
} }
mod year { mod year {
use super::*; use super::*;
get_param_read_array_test!( get_param_read_array_test!(century0_get, year, 2099, MONTH, [0, 0b1001_1001], [0, 0]);
century0_get,
get_year,
2099,
MONTH,
[0, 0b1001_1001],
[0, 0]
);
read_set_param_write_two_test!( read_set_param_write_two_test!(
century0_set, century0_set,
set_year, set_year,
@ -193,14 +186,7 @@ mod year {
0b1001_1001 0b1001_1001
); );
get_param_read_array_test!( get_param_read_array_test!(century1_get, year, 2100, MONTH, [0b1000_0000, 0], [0, 0]);
century1_get,
get_year,
2100,
MONTH,
[0b1000_0000, 0],
[0, 0]
);
read_set_param_write_two_test!( read_set_param_write_two_test!(
century1_set, century1_set,
set_year, set_year,
@ -283,7 +269,7 @@ macro_rules! dt_test {
], ],
[0, 0, 0, 0, 0, 0, 0] [0, 0, 0, 0, 0, 0, 0]
)); ));
assert_eq!(dt, dev.get_datetime().unwrap()); assert_eq!(dt, dev.datetime().unwrap());
$destroy_method(dev); $destroy_method(dev);
} }
@ -314,7 +300,7 @@ macro_rules! dt_test {
[0b0001_0011, 0b0000_1000, 0b0001_1000], [0b0001_0011, 0b0000_1000, 0b0001_1000],
[0, 0, 0] [0, 0, 0]
)); ));
assert_eq!(d, dev.get_date().unwrap()); assert_eq!(d, dev.date().unwrap());
$destroy_method(dev); $destroy_method(dev);
} }
@ -348,7 +334,7 @@ macro_rules! dt_test {
[0b0101_1000, 0b0101_1001, 0b0010_0011], [0b0101_1000, 0b0101_1001, 0b0010_0011],
[0, 0, 0] [0, 0, 0]
)); ));
assert_eq!(t, dev.get_time().unwrap()); assert_eq!(t, dev.time().unwrap());
$destroy_method(dev); $destroy_method(dev);
} }

View File

@ -32,10 +32,10 @@ get_param_test!(
!BF::ALARM2F !BF::ALARM2F
); );
get_param_read_array_test!(temp_0, get_temperature, 0.0, TEMP_MSB, [0, 0], [0, 0]); get_param_read_array_test!(temp_0, temperature, 0.0, TEMP_MSB, [0, 0], [0, 0]);
get_param_read_array_test!( get_param_read_array_test!(
temp_min, temp_min,
get_temperature, temperature,
-128.0, -128.0,
TEMP_MSB, TEMP_MSB,
[0b1000_0000, 0], [0b1000_0000, 0],
@ -43,7 +43,7 @@ get_param_read_array_test!(
); );
get_param_read_array_test!( get_param_read_array_test!(
temp_max, temp_max,
get_temperature, temperature,
127.75, 127.75,
TEMP_MSB, TEMP_MSB,
[0b0111_1111, 0b1100_0000], [0b0111_1111, 0b1100_0000],