πŸ“¦ samueltardieu / stm32-metapac-generated

stm32-metapac-generated / src / peripherals / rtc_v3.rs
πŸ“„ rtc_v3.rs Β· 831 lines 
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831#![allow(clippy::missing_safety_doc)]
                #![allow(clippy::identity_op)]
                #![allow(clippy::unnecessary_cast)]
                #![allow(clippy::erasing_op)]

# [doc = "Real-time clock"]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Rtc { ptr : * mut u8 } unsafe impl Send for Rtc { } unsafe impl Sync for Rtc { } impl Rtc { # [inline (always)]
pub const unsafe fn from_ptr (ptr : * mut ()) -> Self { Self { ptr : ptr as _ , } } # [inline (always)]
pub const fn as_ptr (& self) -> * mut () { self . ptr as _ } # [doc = "Time register"]
# [inline (always)]
pub const fn tr (self) -> crate :: common :: Reg < regs :: Tr , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x0usize) as _) } } # [doc = "Date register"]
# [inline (always)]
pub const fn dr (self) -> crate :: common :: Reg < regs :: Dr , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x04usize) as _) } } # [doc = "Sub second register"]
# [inline (always)]
pub const fn ssr (self) -> crate :: common :: Reg < regs :: Ssr , crate :: common :: R > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x08usize) as _) } } # [doc = "Initialization control and status register"]
# [inline (always)]
pub const fn icsr (self) -> crate :: common :: Reg < regs :: Icsr , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x0cusize) as _) } } # [doc = "Prescaler register"]
# [inline (always)]
pub const fn prer (self) -> crate :: common :: Reg < regs :: Prer , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x10usize) as _) } } # [doc = "Wakeup timer register"]
# [inline (always)]
pub const fn wutr (self) -> crate :: common :: Reg < regs :: Wutr , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x14usize) as _) } } # [doc = "Control register"]
# [inline (always)]
pub const fn cr (self) -> crate :: common :: Reg < regs :: Cr , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x18usize) as _) } } # [doc = "Write protection register"]
# [inline (always)]
pub const fn wpr (self) -> crate :: common :: Reg < regs :: Wpr , crate :: common :: W > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x24usize) as _) } } # [doc = "Calibration register"]
# [inline (always)]
pub const fn calr (self) -> crate :: common :: Reg < regs :: Calr , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x28usize) as _) } } # [doc = "Shift control register"]
# [inline (always)]
pub const fn shiftr (self) -> crate :: common :: Reg < regs :: Shiftr , crate :: common :: W > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x2cusize) as _) } } # [doc = "Timestamp time register"]
# [inline (always)]
pub const fn tstr (self) -> crate :: common :: Reg < regs :: Tstr , crate :: common :: R > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x30usize) as _) } } # [doc = "Timestamp date register"]
# [inline (always)]
pub const fn tsdr (self) -> crate :: common :: Reg < regs :: Tsdr , crate :: common :: R > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x34usize) as _) } } # [doc = "Timestamp sub second register"]
# [inline (always)]
pub const fn tsssr (self) -> crate :: common :: Reg < regs :: Tsssr , crate :: common :: R > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x38usize) as _) } } # [doc = "Alarm register"]
# [inline (always)]
pub const fn alrmr (self , n : usize) -> crate :: common :: Reg < regs :: Alrmr , crate :: common :: RW > { assert ! (n < 2usize) ; unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x40usize + n * 8usize) as _) } } # [doc = "Alarm sub second register"]
# [inline (always)]
pub const fn alrmssr (self , n : usize) -> crate :: common :: Reg < regs :: Alrmssr , crate :: common :: RW > { assert ! (n < 2usize) ; unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x44usize + n * 8usize) as _) } } # [doc = "Status register"]
# [inline (always)]
pub const fn sr (self) -> crate :: common :: Reg < regs :: Sr , crate :: common :: R > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x50usize) as _) } } # [doc = "Masked interrupt status register"]
# [inline (always)]
pub const fn misr (self) -> crate :: common :: Reg < regs :: Misr , crate :: common :: R > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x54usize) as _) } } # [doc = "Status clear register"]
# [inline (always)]
pub const fn scr (self) -> crate :: common :: Reg < regs :: Scr , crate :: common :: W > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x5cusize) as _) } } # [doc = "Alarm binary mode register"]
# [inline (always)]
pub const fn alrbinr (self , n : usize) -> crate :: common :: Reg < regs :: Alrbinr , crate :: common :: RW > { assert ! (n < 2usize) ; unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x70usize + n * 4usize) as _) } } } pub mod regs { # [doc = "RTC alarm A binary mode register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Alrbinr (pub u32) ; impl Alrbinr { # [doc = "Synchronous counter alarm value in Binary mode"]
# [inline (always)]
pub const fn ss (& self) -> u32 { let val = (self . 0 >> 0usize) & 0xffff_ffff ; val as u32 } # [doc = "Synchronous counter alarm value in Binary mode"]
# [inline (always)]
pub fn set_ss (& mut self , val : u32) { self . 0 = (self . 0 & ! (0xffff_ffff << 0usize)) | (((val as u32) & 0xffff_ffff) << 0usize) ; } } impl Default for Alrbinr { # [inline (always)]
fn default () -> Alrbinr { Alrbinr (0) } } # [doc = "Alarm register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Alrmr (pub u32) ; impl Alrmr { # [doc = "Second units in BCD format"]
# [inline (always)]
pub const fn su (& self) -> u8 { let val = (self . 0 >> 0usize) & 0x0f ; val as u8 } # [doc = "Second units in BCD format"]
# [inline (always)]
pub fn set_su (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x0f << 0usize)) | (((val as u32) & 0x0f) << 0usize) ; } # [doc = "Second tens in BCD format"]
# [inline (always)]
pub const fn st (& self) -> u8 { let val = (self . 0 >> 4usize) & 0x07 ; val as u8 } # [doc = "Second tens in BCD format"]
# [inline (always)]
pub fn set_st (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x07 << 4usize)) | (((val as u32) & 0x07) << 4usize) ; } # [doc = "Alarm A seconds mask"]
# [inline (always)]
pub const fn msk1 (& self) -> super :: vals :: AlrmrMsk { let val = (self . 0 >> 7usize) & 0x01 ; super :: vals :: AlrmrMsk :: from_bits (val as u8) } # [doc = "Alarm A seconds mask"]
# [inline (always)]
pub fn set_msk1 (& mut self , val : super :: vals :: AlrmrMsk) { self . 0 = (self . 0 & ! (0x01 << 7usize)) | (((val . to_bits () as u32) & 0x01) << 7usize) ; } # [doc = "Minute units in BCD format"]
# [inline (always)]
pub const fn mnu (& self) -> u8 { let val = (self . 0 >> 8usize) & 0x0f ; val as u8 } # [doc = "Minute units in BCD format"]
# [inline (always)]
pub fn set_mnu (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x0f << 8usize)) | (((val as u32) & 0x0f) << 8usize) ; } # [doc = "Minute tens in BCD format"]
# [inline (always)]
pub const fn mnt (& self) -> u8 { let val = (self . 0 >> 12usize) & 0x07 ; val as u8 } # [doc = "Minute tens in BCD format"]
# [inline (always)]
pub fn set_mnt (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x07 << 12usize)) | (((val as u32) & 0x07) << 12usize) ; } # [doc = "Alarm A minutes mask"]
# [inline (always)]
pub const fn msk2 (& self) -> super :: vals :: AlrmrMsk { let val = (self . 0 >> 15usize) & 0x01 ; super :: vals :: AlrmrMsk :: from_bits (val as u8) } # [doc = "Alarm A minutes mask"]
# [inline (always)]
pub fn set_msk2 (& mut self , val : super :: vals :: AlrmrMsk) { self . 0 = (self . 0 & ! (0x01 << 15usize)) | (((val . to_bits () as u32) & 0x01) << 15usize) ; } # [doc = "Hour units in BCD format"]
# [inline (always)]
pub const fn hu (& self) -> u8 { let val = (self . 0 >> 16usize) & 0x0f ; val as u8 } # [doc = "Hour units in BCD format"]
# [inline (always)]
pub fn set_hu (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x0f << 16usize)) | (((val as u32) & 0x0f) << 16usize) ; } # [doc = "Hour tens in BCD format"]
# [inline (always)]
pub const fn ht (& self) -> u8 { let val = (self . 0 >> 20usize) & 0x03 ; val as u8 } # [doc = "Hour tens in BCD format"]
# [inline (always)]
pub fn set_ht (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x03 << 20usize)) | (((val as u32) & 0x03) << 20usize) ; } # [doc = "AM/PM notation"]
# [inline (always)]
pub const fn pm (& self) -> super :: vals :: AlrmrPm { let val = (self . 0 >> 22usize) & 0x01 ; super :: vals :: AlrmrPm :: from_bits (val as u8) } # [doc = "AM/PM notation"]
# [inline (always)]
pub fn set_pm (& mut self , val : super :: vals :: AlrmrPm) { self . 0 = (self . 0 & ! (0x01 << 22usize)) | (((val . to_bits () as u32) & 0x01) << 22usize) ; } # [doc = "Alarm A hours mask"]
# [inline (always)]
pub const fn msk3 (& self) -> super :: vals :: AlrmrMsk { let val = (self . 0 >> 23usize) & 0x01 ; super :: vals :: AlrmrMsk :: from_bits (val as u8) } # [doc = "Alarm A hours mask"]
# [inline (always)]
pub fn set_msk3 (& mut self , val : super :: vals :: AlrmrMsk) { self . 0 = (self . 0 & ! (0x01 << 23usize)) | (((val . to_bits () as u32) & 0x01) << 23usize) ; } # [doc = "Date units or day in BCD format"]
# [inline (always)]
pub const fn du (& self) -> u8 { let val = (self . 0 >> 24usize) & 0x0f ; val as u8 } # [doc = "Date units or day in BCD format"]
# [inline (always)]
pub fn set_du (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x0f << 24usize)) | (((val as u32) & 0x0f) << 24usize) ; } # [doc = "Date tens in BCD format"]
# [inline (always)]
pub const fn dt (& self) -> u8 { let val = (self . 0 >> 28usize) & 0x03 ; val as u8 } # [doc = "Date tens in BCD format"]
# [inline (always)]
pub fn set_dt (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x03 << 28usize)) | (((val as u32) & 0x03) << 28usize) ; } # [doc = "Week day selection"]
# [inline (always)]
pub const fn wdsel (& self) -> super :: vals :: AlrmrWdsel { let val = (self . 0 >> 30usize) & 0x01 ; super :: vals :: AlrmrWdsel :: from_bits (val as u8) } # [doc = "Week day selection"]
# [inline (always)]
pub fn set_wdsel (& mut self , val : super :: vals :: AlrmrWdsel) { self . 0 = (self . 0 & ! (0x01 << 30usize)) | (((val . to_bits () as u32) & 0x01) << 30usize) ; } # [doc = "Alarm A date mask"]
# [inline (always)]
pub const fn msk4 (& self) -> super :: vals :: AlrmrMsk { let val = (self . 0 >> 31usize) & 0x01 ; super :: vals :: AlrmrMsk :: from_bits (val as u8) } # [doc = "Alarm A date mask"]
# [inline (always)]
pub fn set_msk4 (& mut self , val : super :: vals :: AlrmrMsk) { self . 0 = (self . 0 & ! (0x01 << 31usize)) | (((val . to_bits () as u32) & 0x01) << 31usize) ; } } impl Default for Alrmr { # [inline (always)]
fn default () -> Alrmr { Alrmr (0) } } # [doc = "Alarm sub second register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Alrmssr (pub u32) ; impl Alrmssr { # [doc = "Sub seconds value"]
# [inline (always)]
pub const fn ss (& self) -> u16 { let val = (self . 0 >> 0usize) & 0x7fff ; val as u16 } # [doc = "Sub seconds value"]
# [inline (always)]
pub fn set_ss (& mut self , val : u16) { self . 0 = (self . 0 & ! (0x7fff << 0usize)) | (((val as u32) & 0x7fff) << 0usize) ; } # [doc = "Mask the most-significant bits starting at this bit"]
# [inline (always)]
pub const fn maskss (& self) -> u8 { let val = (self . 0 >> 24usize) & 0x3f ; val as u8 } # [doc = "Mask the most-significant bits starting at this bit"]
# [inline (always)]
pub fn set_maskss (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x3f << 24usize)) | (((val as u32) & 0x3f) << 24usize) ; } # [doc = "Clear synchronous counter on alarm (Binary mode only)"]
# [inline (always)]
pub const fn ssclr (& self) -> super :: vals :: AlrmssrSsclr { let val = (self . 0 >> 31usize) & 0x01 ; super :: vals :: AlrmssrSsclr :: from_bits (val as u8) } # [doc = "Clear synchronous counter on alarm (Binary mode only)"]
# [inline (always)]
pub fn set_ssclr (& mut self , val : super :: vals :: AlrmssrSsclr) { self . 0 = (self . 0 & ! (0x01 << 31usize)) | (((val . to_bits () as u32) & 0x01) << 31usize) ; } } impl Default for Alrmssr { # [inline (always)]
fn default () -> Alrmssr { Alrmssr (0) } } # [doc = "Calibration register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Calr (pub u32) ; impl Calr { # [doc = "Calibration minus"]
# [inline (always)]
pub const fn calm (& self) -> u16 { let val = (self . 0 >> 0usize) & 0x01ff ; val as u16 } # [doc = "Calibration minus"]
# [inline (always)]
pub fn set_calm (& mut self , val : u16) { self . 0 = (self . 0 & ! (0x01ff << 0usize)) | (((val as u32) & 0x01ff) << 0usize) ; } # [doc = "Calibration low-power mode"]
# [inline (always)]
pub const fn lpcal (& self) -> super :: vals :: Lpcal { let val = (self . 0 >> 12usize) & 0x01 ; super :: vals :: Lpcal :: from_bits (val as u8) } # [doc = "Calibration low-power mode"]
# [inline (always)]
pub fn set_lpcal (& mut self , val : super :: vals :: Lpcal) { self . 0 = (self . 0 & ! (0x01 << 12usize)) | (((val . to_bits () as u32) & 0x01) << 12usize) ; } # [doc = "Use a 16-second calibration cycle period"]
# [inline (always)]
pub const fn calw16 (& self) -> super :: vals :: Calw16 { let val = (self . 0 >> 13usize) & 0x01 ; super :: vals :: Calw16 :: from_bits (val as u8) } # [doc = "Use a 16-second calibration cycle period"]
# [inline (always)]
pub fn set_calw16 (& mut self , val : super :: vals :: Calw16) { self . 0 = (self . 0 & ! (0x01 << 13usize)) | (((val . to_bits () as u32) & 0x01) << 13usize) ; } # [doc = "Use an 8-second calibration cycle period"]
# [inline (always)]
pub const fn calw8 (& self) -> super :: vals :: Calw8 { let val = (self . 0 >> 14usize) & 0x01 ; super :: vals :: Calw8 :: from_bits (val as u8) } # [doc = "Use an 8-second calibration cycle period"]
# [inline (always)]
pub fn set_calw8 (& mut self , val : super :: vals :: Calw8) { self . 0 = (self . 0 & ! (0x01 << 14usize)) | (((val . to_bits () as u32) & 0x01) << 14usize) ; } # [doc = "Increase frequency of RTC by 488.5 ppm"]
# [inline (always)]
pub const fn calp (& self) -> super :: vals :: Calp { let val = (self . 0 >> 15usize) & 0x01 ; super :: vals :: Calp :: from_bits (val as u8) } # [doc = "Increase frequency of RTC by 488.5 ppm"]
# [inline (always)]
pub fn set_calp (& mut self , val : super :: vals :: Calp) { self . 0 = (self . 0 & ! (0x01 << 15usize)) | (((val . to_bits () as u32) & 0x01) << 15usize) ; } } impl Default for Calr { # [inline (always)]
fn default () -> Calr { Calr (0) } } # [doc = "Control register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Cr (pub u32) ; impl Cr { # [doc = "Wakeup clock selection"]
# [inline (always)]
pub const fn wucksel (& self) -> super :: vals :: Wucksel { let val = (self . 0 >> 0usize) & 0x07 ; super :: vals :: Wucksel :: from_bits (val as u8) } # [doc = "Wakeup clock selection"]
# [inline (always)]
pub fn set_wucksel (& mut self , val : super :: vals :: Wucksel) { self . 0 = (self . 0 & ! (0x07 << 0usize)) | (((val . to_bits () as u32) & 0x07) << 0usize) ; } # [doc = "Timestamp event active edge"]
# [inline (always)]
pub const fn tsedge (& self) -> super :: vals :: Tsedge { let val = (self . 0 >> 3usize) & 0x01 ; super :: vals :: Tsedge :: from_bits (val as u8) } # [doc = "Timestamp event active edge"]
# [inline (always)]
pub fn set_tsedge (& mut self , val : super :: vals :: Tsedge) { self . 0 = (self . 0 & ! (0x01 << 3usize)) | (((val . to_bits () as u32) & 0x01) << 3usize) ; } # [doc = "RTC_REFIN reference clock detection enable (50 or 60 Hz)"]
# [inline (always)]
pub const fn refckon (& self) -> bool { let val = (self . 0 >> 4usize) & 0x01 ; val != 0 } # [doc = "RTC_REFIN reference clock detection enable (50 or 60 Hz)"]
# [inline (always)]
pub fn set_refckon (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 4usize)) | (((val as u32) & 0x01) << 4usize) ; } # [doc = "Bypass the shadow registers"]
# [inline (always)]
pub const fn bypshad (& self) -> bool { let val = (self . 0 >> 5usize) & 0x01 ; val != 0 } # [doc = "Bypass the shadow registers"]
# [inline (always)]
pub fn set_bypshad (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 5usize)) | (((val as u32) & 0x01) << 5usize) ; } # [doc = "Hour format"]
# [inline (always)]
pub const fn fmt (& self) -> super :: vals :: Fmt { let val = (self . 0 >> 6usize) & 0x01 ; super :: vals :: Fmt :: from_bits (val as u8) } # [doc = "Hour format"]
# [inline (always)]
pub fn set_fmt (& mut self , val : super :: vals :: Fmt) { self . 0 = (self . 0 & ! (0x01 << 6usize)) | (((val . to_bits () as u32) & 0x01) << 6usize) ; } # [doc = "SSR underflow interrupt enable"]
# [inline (always)]
pub const fn ssruie (& self) -> bool { let val = (self . 0 >> 7usize) & 0x01 ; val != 0 } # [doc = "SSR underflow interrupt enable"]
# [inline (always)]
pub fn set_ssruie (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 7usize)) | (((val as u32) & 0x01) << 7usize) ; } # [doc = "Alarm enable"]
# [inline (always)]
pub const fn alre (& self , n : usize) -> bool { assert ! (n < 2usize) ; let offs = 8usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Alarm enable"]
# [inline (always)]
pub fn set_alre (& mut self , n : usize , val : bool) { assert ! (n < 2usize) ; let offs = 8usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Wakeup timer enable"]
# [inline (always)]
pub const fn wute (& self) -> bool { let val = (self . 0 >> 10usize) & 0x01 ; val != 0 } # [doc = "Wakeup timer enable"]
# [inline (always)]
pub fn set_wute (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 10usize)) | (((val as u32) & 0x01) << 10usize) ; } # [doc = "Timestamp enable"]
# [inline (always)]
pub const fn tse (& self) -> bool { let val = (self . 0 >> 11usize) & 0x01 ; val != 0 } # [doc = "Timestamp enable"]
# [inline (always)]
pub fn set_tse (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 11usize)) | (((val as u32) & 0x01) << 11usize) ; } # [doc = "Alarm interrupt enable"]
# [inline (always)]
pub const fn alraie (& self , n : usize) -> bool { assert ! (n < 2usize) ; let offs = 12usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Alarm interrupt enable"]
# [inline (always)]
pub fn set_alraie (& mut self , n : usize , val : bool) { assert ! (n < 2usize) ; let offs = 12usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Wakeup timer interrupt enable"]
# [inline (always)]
pub const fn wutie (& self) -> bool { let val = (self . 0 >> 14usize) & 0x01 ; val != 0 } # [doc = "Wakeup timer interrupt enable"]
# [inline (always)]
pub fn set_wutie (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 14usize)) | (((val as u32) & 0x01) << 14usize) ; } # [doc = "Timestamp interrupt enable"]
# [inline (always)]
pub const fn tsie (& self) -> bool { let val = (self . 0 >> 15usize) & 0x01 ; val != 0 } # [doc = "Timestamp interrupt enable"]
# [inline (always)]
pub fn set_tsie (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 15usize)) | (((val as u32) & 0x01) << 15usize) ; } # [doc = "Add 1 hour (summer time change)"]
# [inline (always)]
pub const fn add1h (& self) -> bool { let val = (self . 0 >> 16usize) & 0x01 ; val != 0 } # [doc = "Add 1 hour (summer time change)"]
# [inline (always)]
pub fn set_add1h (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 16usize)) | (((val as u32) & 0x01) << 16usize) ; } # [doc = "Subtract 1 hour (winter time change)"]
# [inline (always)]
pub const fn sub1h (& self) -> bool { let val = (self . 0 >> 17usize) & 0x01 ; val != 0 } # [doc = "Subtract 1 hour (winter time change)"]
# [inline (always)]
pub fn set_sub1h (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 17usize)) | (((val as u32) & 0x01) << 17usize) ; } # [doc = "Backup"]
# [inline (always)]
pub const fn bkp (& self) -> bool { let val = (self . 0 >> 18usize) & 0x01 ; val != 0 } # [doc = "Backup"]
# [inline (always)]
pub fn set_bkp (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 18usize)) | (((val as u32) & 0x01) << 18usize) ; } # [doc = "Calibration output selection"]
# [inline (always)]
pub const fn cosel (& self) -> super :: vals :: Cosel { let val = (self . 0 >> 19usize) & 0x01 ; super :: vals :: Cosel :: from_bits (val as u8) } # [doc = "Calibration output selection"]
# [inline (always)]
pub fn set_cosel (& mut self , val : super :: vals :: Cosel) { self . 0 = (self . 0 & ! (0x01 << 19usize)) | (((val . to_bits () as u32) & 0x01) << 19usize) ; } # [doc = "Output polarity"]
# [inline (always)]
pub const fn pol (& self) -> super :: vals :: Pol { let val = (self . 0 >> 20usize) & 0x01 ; super :: vals :: Pol :: from_bits (val as u8) } # [doc = "Output polarity"]
# [inline (always)]
pub fn set_pol (& mut self , val : super :: vals :: Pol) { self . 0 = (self . 0 & ! (0x01 << 20usize)) | (((val . to_bits () as u32) & 0x01) << 20usize) ; } # [doc = "Output selection"]
# [inline (always)]
pub const fn osel (& self) -> super :: vals :: Osel { let val = (self . 0 >> 21usize) & 0x03 ; super :: vals :: Osel :: from_bits (val as u8) } # [doc = "Output selection"]
# [inline (always)]
pub fn set_osel (& mut self , val : super :: vals :: Osel) { self . 0 = (self . 0 & ! (0x03 << 21usize)) | (((val . to_bits () as u32) & 0x03) << 21usize) ; } # [doc = "Calibration output enable"]
# [inline (always)]
pub const fn coe (& self) -> bool { let val = (self . 0 >> 23usize) & 0x01 ; val != 0 } # [doc = "Calibration output enable"]
# [inline (always)]
pub fn set_coe (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 23usize)) | (((val as u32) & 0x01) << 23usize) ; } # [doc = "Timestamp on internal event enable"]
# [inline (always)]
pub const fn itse (& self) -> bool { let val = (self . 0 >> 24usize) & 0x01 ; val != 0 } # [doc = "Timestamp on internal event enable"]
# [inline (always)]
pub fn set_itse (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 24usize)) | (((val as u32) & 0x01) << 24usize) ; } # [doc = "Activate timestamp on tamper detection event"]
# [inline (always)]
pub const fn tampts (& self) -> bool { let val = (self . 0 >> 25usize) & 0x01 ; val != 0 } # [doc = "Activate timestamp on tamper detection event"]
# [inline (always)]
pub fn set_tampts (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 25usize)) | (((val as u32) & 0x01) << 25usize) ; } # [doc = "Tamper detection output enable on TAMPALRM"]
# [inline (always)]
pub const fn tampoe (& self) -> bool { let val = (self . 0 >> 26usize) & 0x01 ; val != 0 } # [doc = "Tamper detection output enable on TAMPALRM"]
# [inline (always)]
pub fn set_tampoe (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 26usize)) | (((val as u32) & 0x01) << 26usize) ; } # [doc = "TAMPALRM pull-up enable"]
# [inline (always)]
pub const fn tampalrm_pu (& self) -> bool { let val = (self . 0 >> 29usize) & 0x01 ; val != 0 } # [doc = "TAMPALRM pull-up enable"]
# [inline (always)]
pub fn set_tampalrm_pu (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 29usize)) | (((val as u32) & 0x01) << 29usize) ; } # [doc = "TAMPALRM output type"]
# [inline (always)]
pub const fn tampalrm_type (& self) -> super :: vals :: TampalrmType { let val = (self . 0 >> 30usize) & 0x01 ; super :: vals :: TampalrmType :: from_bits (val as u8) } # [doc = "TAMPALRM output type"]
# [inline (always)]
pub fn set_tampalrm_type (& mut self , val : super :: vals :: TampalrmType) { self . 0 = (self . 0 & ! (0x01 << 30usize)) | (((val . to_bits () as u32) & 0x01) << 30usize) ; } # [doc = "RTC_OUT2 output enable"]
# [inline (always)]
pub const fn out2en (& self) -> bool { let val = (self . 0 >> 31usize) & 0x01 ; val != 0 } # [doc = "RTC_OUT2 output enable"]
# [inline (always)]
pub fn set_out2en (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 31usize)) | (((val as u32) & 0x01) << 31usize) ; } } impl Default for Cr { # [inline (always)]
fn default () -> Cr { Cr (0) } } # [doc = "Date register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Dr (pub u32) ; impl Dr { # [doc = "Date units in BCD format"]
# [inline (always)]
pub const fn du (& self) -> u8 { let val = (self . 0 >> 0usize) & 0x0f ; val as u8 } # [doc = "Date units in BCD format"]
# [inline (always)]
pub fn set_du (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x0f << 0usize)) | (((val as u32) & 0x0f) << 0usize) ; } # [doc = "Date tens in BCD format"]
# [inline (always)]
pub const fn dt (& self) -> u8 { let val = (self . 0 >> 4usize) & 0x03 ; val as u8 } # [doc = "Date tens in BCD format"]
# [inline (always)]
pub fn set_dt (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x03 << 4usize)) | (((val as u32) & 0x03) << 4usize) ; } # [doc = "Month units in BCD format"]
# [inline (always)]
pub const fn mu (& self) -> u8 { let val = (self . 0 >> 8usize) & 0x0f ; val as u8 } # [doc = "Month units in BCD format"]
# [inline (always)]
pub fn set_mu (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x0f << 8usize)) | (((val as u32) & 0x0f) << 8usize) ; } # [doc = "Month tens in BCD format"]
# [inline (always)]
pub const fn mt (& self) -> bool { let val = (self . 0 >> 12usize) & 0x01 ; val != 0 } # [doc = "Month tens in BCD format"]
# [inline (always)]
pub fn set_mt (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 12usize)) | (((val as u32) & 0x01) << 12usize) ; } # [doc = "Week day units"]
# [inline (always)]
pub const fn wdu (& self) -> u8 { let val = (self . 0 >> 13usize) & 0x07 ; val as u8 } # [doc = "Week day units"]
# [inline (always)]
pub fn set_wdu (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x07 << 13usize)) | (((val as u32) & 0x07) << 13usize) ; } # [doc = "Year units in BCD format"]
# [inline (always)]
pub const fn yu (& self) -> u8 { let val = (self . 0 >> 16usize) & 0x0f ; val as u8 } # [doc = "Year units in BCD format"]
# [inline (always)]
pub fn set_yu (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x0f << 16usize)) | (((val as u32) & 0x0f) << 16usize) ; } # [doc = "Year tens in BCD format"]
# [inline (always)]
pub const fn yt (& self) -> u8 { let val = (self . 0 >> 20usize) & 0x0f ; val as u8 } # [doc = "Year tens in BCD format"]
# [inline (always)]
pub fn set_yt (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x0f << 20usize)) | (((val as u32) & 0x0f) << 20usize) ; } } impl Default for Dr { # [inline (always)]
fn default () -> Dr { Dr (0) } } # [doc = "Initialization control and status register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Icsr (pub u32) ; impl Icsr { # [doc = "Wakeup timer write enabled"]
# [inline (always)]
pub const fn wutwf (& self) -> bool { let val = (self . 0 >> 2usize) & 0x01 ; val != 0 } # [doc = "Wakeup timer write enabled"]
# [inline (always)]
pub fn set_wutwf (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 2usize)) | (((val as u32) & 0x01) << 2usize) ; } # [doc = "Shift operation pending"]
# [inline (always)]
pub const fn shpf (& self) -> bool { let val = (self . 0 >> 3usize) & 0x01 ; val != 0 } # [doc = "Shift operation pending"]
# [inline (always)]
pub fn set_shpf (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 3usize)) | (((val as u32) & 0x01) << 3usize) ; } # [doc = "Initialization status flag"]
# [inline (always)]
pub const fn inits (& self) -> bool { let val = (self . 0 >> 4usize) & 0x01 ; val != 0 } # [doc = "Initialization status flag"]
# [inline (always)]
pub fn set_inits (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 4usize)) | (((val as u32) & 0x01) << 4usize) ; } # [doc = "Registers synchronization flag"]
# [inline (always)]
pub const fn rsf (& self) -> bool { let val = (self . 0 >> 5usize) & 0x01 ; val != 0 } # [doc = "Registers synchronization flag"]
# [inline (always)]
pub fn set_rsf (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 5usize)) | (((val as u32) & 0x01) << 5usize) ; } # [doc = "Initialization flag"]
# [inline (always)]
pub const fn initf (& self) -> bool { let val = (self . 0 >> 6usize) & 0x01 ; val != 0 } # [doc = "Initialization flag"]
# [inline (always)]
pub fn set_initf (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 6usize)) | (((val as u32) & 0x01) << 6usize) ; } # [doc = "Enter Initialization mode"]
# [inline (always)]
pub const fn init (& self) -> bool { let val = (self . 0 >> 7usize) & 0x01 ; val != 0 } # [doc = "Enter Initialization mode"]
# [inline (always)]
pub fn set_init (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 7usize)) | (((val as u32) & 0x01) << 7usize) ; } # [doc = "Binary mode"]
# [inline (always)]
pub const fn bin (& self) -> super :: vals :: Bin { let val = (self . 0 >> 8usize) & 0x03 ; super :: vals :: Bin :: from_bits (val as u8) } # [doc = "Binary mode"]
# [inline (always)]
pub fn set_bin (& mut self , val : super :: vals :: Bin) { self . 0 = (self . 0 & ! (0x03 << 8usize)) | (((val . to_bits () as u32) & 0x03) << 8usize) ; } # [doc = "BCD update"]
# [inline (always)]
pub const fn bcdu (& self) -> super :: vals :: Bcdu { let val = (self . 0 >> 10usize) & 0x07 ; super :: vals :: Bcdu :: from_bits (val as u8) } # [doc = "BCD update"]
# [inline (always)]
pub fn set_bcdu (& mut self , val : super :: vals :: Bcdu) { self . 0 = (self . 0 & ! (0x07 << 10usize)) | (((val . to_bits () as u32) & 0x07) << 10usize) ; } # [doc = "Recalibration pending Flag"]
# [inline (always)]
pub const fn recalpf (& self) -> super :: vals :: Recalpf { let val = (self . 0 >> 16usize) & 0x01 ; super :: vals :: Recalpf :: from_bits (val as u8) } # [doc = "Recalibration pending Flag"]
# [inline (always)]
pub fn set_recalpf (& mut self , val : super :: vals :: Recalpf) { self . 0 = (self . 0 & ! (0x01 << 16usize)) | (((val . to_bits () as u32) & 0x01) << 16usize) ; } } impl Default for Icsr { # [inline (always)]
fn default () -> Icsr { Icsr (0) } } # [doc = "Masked interrupt status register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Misr (pub u32) ; impl Misr { # [doc = "Alarm masked flag"]
# [inline (always)]
pub const fn alrmf (& self , n : usize) -> super :: vals :: Alrmf { assert ! (n < 2usize) ; let offs = 0usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Alrmf :: from_bits (val as u8) } # [doc = "Alarm masked flag"]
# [inline (always)]
pub fn set_alrmf (& mut self , n : usize , val : super :: vals :: Alrmf) { assert ! (n < 2usize) ; let offs = 0usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "Wakeup timer masked flag"]
# [inline (always)]
pub const fn wutmf (& self) -> super :: vals :: Wutmf { let val = (self . 0 >> 2usize) & 0x01 ; super :: vals :: Wutmf :: from_bits (val as u8) } # [doc = "Wakeup timer masked flag"]
# [inline (always)]
pub fn set_wutmf (& mut self , val : super :: vals :: Wutmf) { self . 0 = (self . 0 & ! (0x01 << 2usize)) | (((val . to_bits () as u32) & 0x01) << 2usize) ; } # [doc = "Timestamp masked flag"]
# [inline (always)]
pub const fn tsmf (& self) -> super :: vals :: Tsmf { let val = (self . 0 >> 3usize) & 0x01 ; super :: vals :: Tsmf :: from_bits (val as u8) } # [doc = "Timestamp masked flag"]
# [inline (always)]
pub fn set_tsmf (& mut self , val : super :: vals :: Tsmf) { self . 0 = (self . 0 & ! (0x01 << 3usize)) | (((val . to_bits () as u32) & 0x01) << 3usize) ; } # [doc = "Timestamp overflow masked flag"]
# [inline (always)]
pub const fn tsovmf (& self) -> super :: vals :: Tsovmf { let val = (self . 0 >> 4usize) & 0x01 ; super :: vals :: Tsovmf :: from_bits (val as u8) } # [doc = "Timestamp overflow masked flag"]
# [inline (always)]
pub fn set_tsovmf (& mut self , val : super :: vals :: Tsovmf) { self . 0 = (self . 0 & ! (0x01 << 4usize)) | (((val . to_bits () as u32) & 0x01) << 4usize) ; } # [doc = "Internal timestamp masked flag"]
# [inline (always)]
pub const fn itsmf (& self) -> super :: vals :: Itsmf { let val = (self . 0 >> 5usize) & 0x01 ; super :: vals :: Itsmf :: from_bits (val as u8) } # [doc = "Internal timestamp masked flag"]
# [inline (always)]
pub fn set_itsmf (& mut self , val : super :: vals :: Itsmf) { self . 0 = (self . 0 & ! (0x01 << 5usize)) | (((val . to_bits () as u32) & 0x01) << 5usize) ; } # [doc = "SSR underflow masked flag"]
# [inline (always)]
pub const fn ssrumf (& self) -> super :: vals :: Ssrumf { let val = (self . 0 >> 6usize) & 0x01 ; super :: vals :: Ssrumf :: from_bits (val as u8) } # [doc = "SSR underflow masked flag"]
# [inline (always)]
pub fn set_ssrumf (& mut self , val : super :: vals :: Ssrumf) { self . 0 = (self . 0 & ! (0x01 << 6usize)) | (((val . to_bits () as u32) & 0x01) << 6usize) ; } } impl Default for Misr { # [inline (always)]
fn default () -> Misr { Misr (0) } } # [doc = "Prescaler register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Prer (pub u32) ; impl Prer { # [doc = "Synchronous prescaler factor"]
# [inline (always)]
pub const fn prediv_s (& self) -> u16 { let val = (self . 0 >> 0usize) & 0x7fff ; val as u16 } # [doc = "Synchronous prescaler factor"]
# [inline (always)]
pub fn set_prediv_s (& mut self , val : u16) { self . 0 = (self . 0 & ! (0x7fff << 0usize)) | (((val as u32) & 0x7fff) << 0usize) ; } # [doc = "Asynchronous prescaler factor"]
# [inline (always)]
pub const fn prediv_a (& self) -> u8 { let val = (self . 0 >> 16usize) & 0x7f ; val as u8 } # [doc = "Asynchronous prescaler factor"]
# [inline (always)]
pub fn set_prediv_a (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x7f << 16usize)) | (((val as u32) & 0x7f) << 16usize) ; } } impl Default for Prer { # [inline (always)]
fn default () -> Prer { Prer (0) } } # [doc = "Status clear register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Scr (pub u32) ; impl Scr { # [doc = "Clear alarm A flag"]
# [inline (always)]
pub const fn calrf (& self , n : usize) -> super :: vals :: Calrf { assert ! (n < 2usize) ; let offs = 0usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Calrf :: from_bits (val as u8) } # [doc = "Clear alarm A flag"]
# [inline (always)]
pub fn set_calrf (& mut self , n : usize , val : super :: vals :: Calrf) { assert ! (n < 2usize) ; let offs = 0usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "Clear wakeup timer flag"]
# [inline (always)]
pub const fn cwutf (& self) -> super :: vals :: Calrf { let val = (self . 0 >> 2usize) & 0x01 ; super :: vals :: Calrf :: from_bits (val as u8) } # [doc = "Clear wakeup timer flag"]
# [inline (always)]
pub fn set_cwutf (& mut self , val : super :: vals :: Calrf) { self . 0 = (self . 0 & ! (0x01 << 2usize)) | (((val . to_bits () as u32) & 0x01) << 2usize) ; } # [doc = "Clear timestamp flag"]
# [inline (always)]
pub const fn ctsf (& self) -> super :: vals :: Calrf { let val = (self . 0 >> 3usize) & 0x01 ; super :: vals :: Calrf :: from_bits (val as u8) } # [doc = "Clear timestamp flag"]
# [inline (always)]
pub fn set_ctsf (& mut self , val : super :: vals :: Calrf) { self . 0 = (self . 0 & ! (0x01 << 3usize)) | (((val . to_bits () as u32) & 0x01) << 3usize) ; } # [doc = "Clear timestamp overflow flag"]
# [inline (always)]
pub const fn ctsovf (& self) -> super :: vals :: Calrf { let val = (self . 0 >> 4usize) & 0x01 ; super :: vals :: Calrf :: from_bits (val as u8) } # [doc = "Clear timestamp overflow flag"]
# [inline (always)]
pub fn set_ctsovf (& mut self , val : super :: vals :: Calrf) { self . 0 = (self . 0 & ! (0x01 << 4usize)) | (((val . to_bits () as u32) & 0x01) << 4usize) ; } # [doc = "Clear internal timestamp flag"]
# [inline (always)]
pub const fn citsf (& self) -> super :: vals :: Calrf { let val = (self . 0 >> 5usize) & 0x01 ; super :: vals :: Calrf :: from_bits (val as u8) } # [doc = "Clear internal timestamp flag"]
# [inline (always)]
pub fn set_citsf (& mut self , val : super :: vals :: Calrf) { self . 0 = (self . 0 & ! (0x01 << 5usize)) | (((val . to_bits () as u32) & 0x01) << 5usize) ; } # [doc = "Clear SSR underflow flag"]
# [inline (always)]
pub const fn cssruf (& self) -> super :: vals :: Calrf { let val = (self . 0 >> 6usize) & 0x01 ; super :: vals :: Calrf :: from_bits (val as u8) } # [doc = "Clear SSR underflow flag"]
# [inline (always)]
pub fn set_cssruf (& mut self , val : super :: vals :: Calrf) { self . 0 = (self . 0 & ! (0x01 << 6usize)) | (((val . to_bits () as u32) & 0x01) << 6usize) ; } } impl Default for Scr { # [inline (always)]
fn default () -> Scr { Scr (0) } } # [doc = "Shift control register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Shiftr (pub u32) ; impl Shiftr { # [doc = "Subtract a fraction of a second"]
# [inline (always)]
pub const fn subfs (& self) -> u16 { let val = (self . 0 >> 0usize) & 0x7fff ; val as u16 } # [doc = "Subtract a fraction of a second"]
# [inline (always)]
pub fn set_subfs (& mut self , val : u16) { self . 0 = (self . 0 & ! (0x7fff << 0usize)) | (((val as u32) & 0x7fff) << 0usize) ; } # [doc = "Add one second"]
# [inline (always)]
pub const fn add1s (& self) -> bool { let val = (self . 0 >> 31usize) & 0x01 ; val != 0 } # [doc = "Add one second"]
# [inline (always)]
pub fn set_add1s (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 31usize)) | (((val as u32) & 0x01) << 31usize) ; } } impl Default for Shiftr { # [inline (always)]
fn default () -> Shiftr { Shiftr (0) } } # [doc = "Status register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Sr (pub u32) ; impl Sr { # [doc = "Alarm flag"]
# [inline (always)]
pub const fn alrf (& self , n : usize) -> super :: vals :: Alrf { assert ! (n < 2usize) ; let offs = 0usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Alrf :: from_bits (val as u8) } # [doc = "Alarm flag"]
# [inline (always)]
pub fn set_alrf (& mut self , n : usize , val : super :: vals :: Alrf) { assert ! (n < 2usize) ; let offs = 0usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "Wakeup timer flag"]
# [inline (always)]
pub const fn wutf (& self) -> super :: vals :: Wutf { let val = (self . 0 >> 2usize) & 0x01 ; super :: vals :: Wutf :: from_bits (val as u8) } # [doc = "Wakeup timer flag"]
# [inline (always)]
pub fn set_wutf (& mut self , val : super :: vals :: Wutf) { self . 0 = (self . 0 & ! (0x01 << 2usize)) | (((val . to_bits () as u32) & 0x01) << 2usize) ; } # [doc = "Timestamp flag"]
# [inline (always)]
pub const fn tsf (& self) -> super :: vals :: Tsf { let val = (self . 0 >> 3usize) & 0x01 ; super :: vals :: Tsf :: from_bits (val as u8) } # [doc = "Timestamp flag"]
# [inline (always)]
pub fn set_tsf (& mut self , val : super :: vals :: Tsf) { self . 0 = (self . 0 & ! (0x01 << 3usize)) | (((val . to_bits () as u32) & 0x01) << 3usize) ; } # [doc = "Timestamp overflow flag"]
# [inline (always)]
pub const fn tsovf (& self) -> super :: vals :: Tsovf { let val = (self . 0 >> 4usize) & 0x01 ; super :: vals :: Tsovf :: from_bits (val as u8) } # [doc = "Timestamp overflow flag"]
# [inline (always)]
pub fn set_tsovf (& mut self , val : super :: vals :: Tsovf) { self . 0 = (self . 0 & ! (0x01 << 4usize)) | (((val . to_bits () as u32) & 0x01) << 4usize) ; } # [doc = "Internal timestamp flag"]
# [inline (always)]
pub const fn itsf (& self) -> super :: vals :: Itsf { let val = (self . 0 >> 5usize) & 0x01 ; super :: vals :: Itsf :: from_bits (val as u8) } # [doc = "Internal timestamp flag"]
# [inline (always)]
pub fn set_itsf (& mut self , val : super :: vals :: Itsf) { self . 0 = (self . 0 & ! (0x01 << 5usize)) | (((val . to_bits () as u32) & 0x01) << 5usize) ; } # [doc = "SSR underflow flag"]
# [inline (always)]
pub const fn ssruf (& self) -> super :: vals :: Ssruf { let val = (self . 0 >> 6usize) & 0x01 ; super :: vals :: Ssruf :: from_bits (val as u8) } # [doc = "SSR underflow flag"]
# [inline (always)]
pub fn set_ssruf (& mut self , val : super :: vals :: Ssruf) { self . 0 = (self . 0 & ! (0x01 << 6usize)) | (((val . to_bits () as u32) & 0x01) << 6usize) ; } } impl Default for Sr { # [inline (always)]
fn default () -> Sr { Sr (0) } } # [doc = "Sub second register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Ssr (pub u32) ; impl Ssr { # [doc = "Synchronous binary counter"]
# [inline (always)]
pub const fn ss (& self) -> u32 { let val = (self . 0 >> 0usize) & 0xffff_ffff ; val as u32 } # [doc = "Synchronous binary counter"]
# [inline (always)]
pub fn set_ss (& mut self , val : u32) { self . 0 = (self . 0 & ! (0xffff_ffff << 0usize)) | (((val as u32) & 0xffff_ffff) << 0usize) ; } } impl Default for Ssr { # [inline (always)]
fn default () -> Ssr { Ssr (0) } } # [doc = "Time register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Tr (pub u32) ; impl Tr { # [doc = "Second units in BCD format"]
# [inline (always)]
pub const fn su (& self) -> u8 { let val = (self . 0 >> 0usize) & 0x0f ; val as u8 } # [doc = "Second units in BCD format"]
# [inline (always)]
pub fn set_su (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x0f << 0usize)) | (((val as u32) & 0x0f) << 0usize) ; } # [doc = "Second tens in BCD format"]
# [inline (always)]
pub const fn st (& self) -> u8 { let val = (self . 0 >> 4usize) & 0x07 ; val as u8 } # [doc = "Second tens in BCD format"]
# [inline (always)]
pub fn set_st (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x07 << 4usize)) | (((val as u32) & 0x07) << 4usize) ; } # [doc = "Minute units in BCD format"]
# [inline (always)]
pub const fn mnu (& self) -> u8 { let val = (self . 0 >> 8usize) & 0x0f ; val as u8 } # [doc = "Minute units in BCD format"]
# [inline (always)]
pub fn set_mnu (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x0f << 8usize)) | (((val as u32) & 0x0f) << 8usize) ; } # [doc = "Minute tens in BCD format"]
# [inline (always)]
pub const fn mnt (& self) -> u8 { let val = (self . 0 >> 12usize) & 0x07 ; val as u8 } # [doc = "Minute tens in BCD format"]
# [inline (always)]
pub fn set_mnt (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x07 << 12usize)) | (((val as u32) & 0x07) << 12usize) ; } # [doc = "Hour units in BCD format"]
# [inline (always)]
pub const fn hu (& self) -> u8 { let val = (self . 0 >> 16usize) & 0x0f ; val as u8 } # [doc = "Hour units in BCD format"]
# [inline (always)]
pub fn set_hu (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x0f << 16usize)) | (((val as u32) & 0x0f) << 16usize) ; } # [doc = "Hour tens in BCD format"]
# [inline (always)]
pub const fn ht (& self) -> u8 { let val = (self . 0 >> 20usize) & 0x03 ; val as u8 } # [doc = "Hour tens in BCD format"]
# [inline (always)]
pub fn set_ht (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x03 << 20usize)) | (((val as u32) & 0x03) << 20usize) ; } # [doc = "AM/PM notation"]
# [inline (always)]
pub const fn pm (& self) -> super :: vals :: Ampm { let val = (self . 0 >> 22usize) & 0x01 ; super :: vals :: Ampm :: from_bits (val as u8) } # [doc = "AM/PM notation"]
# [inline (always)]
pub fn set_pm (& mut self , val : super :: vals :: Ampm) { self . 0 = (self . 0 & ! (0x01 << 22usize)) | (((val . to_bits () as u32) & 0x01) << 22usize) ; } } impl Default for Tr { # [inline (always)]
fn default () -> Tr { Tr (0) } } # [doc = "Timestamp date register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Tsdr (pub u32) ; impl Tsdr { # [doc = "Date units in BCD format"]
# [inline (always)]
pub const fn du (& self) -> u8 { let val = (self . 0 >> 0usize) & 0x0f ; val as u8 } # [doc = "Date units in BCD format"]
# [inline (always)]
pub fn set_du (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x0f << 0usize)) | (((val as u32) & 0x0f) << 0usize) ; } # [doc = "Date tens in BCD format"]
# [inline (always)]
pub const fn dt (& self) -> u8 { let val = (self . 0 >> 4usize) & 0x03 ; val as u8 } # [doc = "Date tens in BCD format"]
# [inline (always)]
pub fn set_dt (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x03 << 4usize)) | (((val as u32) & 0x03) << 4usize) ; } # [doc = "Month units in BCD format"]
# [inline (always)]
pub const fn mu (& self) -> u8 { let val = (self . 0 >> 8usize) & 0x0f ; val as u8 } # [doc = "Month units in BCD format"]
# [inline (always)]
pub fn set_mu (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x0f << 8usize)) | (((val as u32) & 0x0f) << 8usize) ; } # [doc = "Month tens in BCD format"]
# [inline (always)]
pub const fn mt (& self) -> bool { let val = (self . 0 >> 12usize) & 0x01 ; val != 0 } # [doc = "Month tens in BCD format"]
# [inline (always)]
pub fn set_mt (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 12usize)) | (((val as u32) & 0x01) << 12usize) ; } # [doc = "Week day units"]
# [inline (always)]
pub const fn wdu (& self) -> u8 { let val = (self . 0 >> 13usize) & 0x07 ; val as u8 } # [doc = "Week day units"]
# [inline (always)]
pub fn set_wdu (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x07 << 13usize)) | (((val as u32) & 0x07) << 13usize) ; } } impl Default for Tsdr { # [inline (always)]
fn default () -> Tsdr { Tsdr (0) } } # [doc = "Timestamp sub second register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Tsssr (pub u32) ; impl Tsssr { # [doc = "Sub second value"]
# [inline (always)]
pub const fn ss (& self) -> u32 { let val = (self . 0 >> 0usize) & 0xffff_ffff ; val as u32 } # [doc = "Sub second value"]
# [inline (always)]
pub fn set_ss (& mut self , val : u32) { self . 0 = (self . 0 & ! (0xffff_ffff << 0usize)) | (((val as u32) & 0xffff_ffff) << 0usize) ; } } impl Default for Tsssr { # [inline (always)]
fn default () -> Tsssr { Tsssr (0) } } # [doc = "Timestamp time register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Tstr (pub u32) ; impl Tstr { # [doc = "Second units in BCD format"]
# [inline (always)]
pub const fn su (& self) -> u8 { let val = (self . 0 >> 0usize) & 0x0f ; val as u8 } # [doc = "Second units in BCD format"]
# [inline (always)]
pub fn set_su (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x0f << 0usize)) | (((val as u32) & 0x0f) << 0usize) ; } # [doc = "Second tens in BCD format"]
# [inline (always)]
pub const fn st (& self) -> u8 { let val = (self . 0 >> 4usize) & 0x07 ; val as u8 } # [doc = "Second tens in BCD format"]
# [inline (always)]
pub fn set_st (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x07 << 4usize)) | (((val as u32) & 0x07) << 4usize) ; } # [doc = "Minute units in BCD format"]
# [inline (always)]
pub const fn mnu (& self) -> u8 { let val = (self . 0 >> 8usize) & 0x0f ; val as u8 } # [doc = "Minute units in BCD format"]
# [inline (always)]
pub fn set_mnu (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x0f << 8usize)) | (((val as u32) & 0x0f) << 8usize) ; } # [doc = "Minute tens in BCD format"]
# [inline (always)]
pub const fn mnt (& self) -> u8 { let val = (self . 0 >> 12usize) & 0x07 ; val as u8 } # [doc = "Minute tens in BCD format"]
# [inline (always)]
pub fn set_mnt (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x07 << 12usize)) | (((val as u32) & 0x07) << 12usize) ; } # [doc = "Hour units in BCD format"]
# [inline (always)]
pub const fn hu (& self) -> u8 { let val = (self . 0 >> 16usize) & 0x0f ; val as u8 } # [doc = "Hour units in BCD format"]
# [inline (always)]
pub fn set_hu (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x0f << 16usize)) | (((val as u32) & 0x0f) << 16usize) ; } # [doc = "Hour tens in BCD format"]
# [inline (always)]
pub const fn ht (& self) -> u8 { let val = (self . 0 >> 20usize) & 0x03 ; val as u8 } # [doc = "Hour tens in BCD format"]
# [inline (always)]
pub fn set_ht (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x03 << 20usize)) | (((val as u32) & 0x03) << 20usize) ; } # [doc = "AM/PM notation"]
# [inline (always)]
pub const fn pm (& self) -> bool { let val = (self . 0 >> 22usize) & 0x01 ; val != 0 } # [doc = "AM/PM notation"]
# [inline (always)]
pub fn set_pm (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 22usize)) | (((val as u32) & 0x01) << 22usize) ; } } impl Default for Tstr { # [inline (always)]
fn default () -> Tstr { Tstr (0) } } # [doc = "Write protection register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Wpr (pub u32) ; impl Wpr { # [doc = "Write protection key"]
# [inline (always)]
pub const fn key (& self) -> super :: vals :: Key { let val = (self . 0 >> 0usize) & 0xff ; super :: vals :: Key :: from_bits (val as u8) } # [doc = "Write protection key"]
# [inline (always)]
pub fn set_key (& mut self , val : super :: vals :: Key) { self . 0 = (self . 0 & ! (0xff << 0usize)) | (((val . to_bits () as u32) & 0xff) << 0usize) ; } } impl Default for Wpr { # [inline (always)]
fn default () -> Wpr { Wpr (0) } } # [doc = "Wakeup timer register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Wutr (pub u32) ; impl Wutr { # [doc = "Wakeup auto-reload value bits"]
# [inline (always)]
pub const fn wut (& self) -> u16 { let val = (self . 0 >> 0usize) & 0xffff ; val as u16 } # [doc = "Wakeup auto-reload value bits"]
# [inline (always)]
pub fn set_wut (& mut self , val : u16) { self . 0 = (self . 0 & ! (0xffff << 0usize)) | (((val as u32) & 0xffff) << 0usize) ; } # [doc = "Wakeup auto-reload output clear value"]
# [inline (always)]
pub const fn wutoclr (& self) -> u16 { let val = (self . 0 >> 16usize) & 0xffff ; val as u16 } # [doc = "Wakeup auto-reload output clear value"]
# [inline (always)]
pub fn set_wutoclr (& mut self , val : u16) { self . 0 = (self . 0 & ! (0xffff << 16usize)) | (((val as u32) & 0xffff) << 16usize) ; } } impl Default for Wutr { # [inline (always)]
fn default () -> Wutr { Wutr (0) } } } pub mod vals { # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Alrf { _RESERVED_0 = 0x0 , # [doc = "This flag is set by hardware when the time/date registers (RTC_TR and RTC_DR) match the Alarm A register (RTC_ALRMAR)"]
MATCH = 0x01 , } impl Alrf { # [inline (always)]
pub const fn from_bits (val : u8) -> Alrf { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Alrf { # [inline (always)]
fn from (val : u8) -> Alrf { Alrf :: from_bits (val) } } impl From < Alrf > for u8 { # [inline (always)]
fn from (val : Alrf) -> u8 { Alrf :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Alrmf { _RESERVED_0 = 0x0 , # [doc = "This flag is set by hardware when the time/date registers (RTC_TR and RTC_DR) match the Alarm A register (RTC_ALRMAR)"]
MATCH = 0x01 , } impl Alrmf { # [inline (always)]
pub const fn from_bits (val : u8) -> Alrmf { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Alrmf { # [inline (always)]
fn from (val : u8) -> Alrmf { Alrmf :: from_bits (val) } } impl From < Alrmf > for u8 { # [inline (always)]
fn from (val : Alrmf) -> u8 { Alrmf :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum AlrmrMsk { # [doc = "Alarm set if the date/day match"]
TOMATCH = 0x0 , # [doc = "Date/day don’t care in Alarm comparison"]
NOTMATCH = 0x01 , } impl AlrmrMsk { # [inline (always)]
pub const fn from_bits (val : u8) -> AlrmrMsk { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for AlrmrMsk { # [inline (always)]
fn from (val : u8) -> AlrmrMsk { AlrmrMsk :: from_bits (val) } } impl From < AlrmrMsk > for u8 { # [inline (always)]
fn from (val : AlrmrMsk) -> u8 { AlrmrMsk :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum AlrmrPm { # [doc = "AM or 24-hour format"]
AM = 0x0 , # [doc = "PM"]
PM = 0x01 , } impl AlrmrPm { # [inline (always)]
pub const fn from_bits (val : u8) -> AlrmrPm { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for AlrmrPm { # [inline (always)]
fn from (val : u8) -> AlrmrPm { AlrmrPm :: from_bits (val) } } impl From < AlrmrPm > for u8 { # [inline (always)]
fn from (val : AlrmrPm) -> u8 { AlrmrPm :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum AlrmrWdsel { # [doc = "DU\\[3:0\\]
represents the date units"]
DATEUNITS = 0x0 , # [doc = "DU\\[3:0\\]
represents the week day. DT\\[1:0\\]
is don’t care."]
WEEKDAY = 0x01 , } impl AlrmrWdsel { # [inline (always)]
pub const fn from_bits (val : u8) -> AlrmrWdsel { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for AlrmrWdsel { # [inline (always)]
fn from (val : u8) -> AlrmrWdsel { AlrmrWdsel :: from_bits (val) } } impl From < AlrmrWdsel > for u8 { # [inline (always)]
fn from (val : AlrmrWdsel) -> u8 { AlrmrWdsel :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum AlrmssrSsclr { # [doc = "The synchronous binary counter (SS\\[31:0\\]
in RTC_SSR) is free-running"]
FREERUNNING = 0x0 , # [doc = "The synchronous binary counter (SS\\[31:0\\]
in RTC_SSR) is running from 0xFFFF FFFF to RTC_ALRMABINR β†’ SS\\[31:0\\]
value and is automatically reloaded with 0xFFFF FFFF when reaching RTC_ALRMABINR β†’ SS\\[31:0\\]"]
ALRMBINR = 0x01 , } impl AlrmssrSsclr { # [inline (always)]
pub const fn from_bits (val : u8) -> AlrmssrSsclr { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for AlrmssrSsclr { # [inline (always)]
fn from (val : u8) -> AlrmssrSsclr { AlrmssrSsclr :: from_bits (val) } } impl From < AlrmssrSsclr > for u8 { # [inline (always)]
fn from (val : AlrmssrSsclr) -> u8 { AlrmssrSsclr :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Ampm { # [doc = "AM or 24-hour format"]
AM = 0x0 , # [doc = "PM"]
PM = 0x01 , } impl Ampm { # [inline (always)]
pub const fn from_bits (val : u8) -> Ampm { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Ampm { # [inline (always)]
fn from (val : u8) -> Ampm { Ampm :: from_bits (val) } } impl From < Ampm > for u8 { # [inline (always)]
fn from (val : Ampm) -> u8 { Ampm :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Bcdu { # [doc = "1s increment each time SS\\[7:0\\]=0"]
BIT7 = 0x0 , # [doc = "1s increment each time SS\\[8:0\\]=0"]
BIT8 = 0x01 , # [doc = "1s increment each time SS\\[9:0\\]=0"]
BIT9 = 0x02 , # [doc = "1s increment each time SS\\[10:0\\]=0"]
BIT10 = 0x03 , # [doc = "1s increment each time SS\\[11:0\\]=0"]
BIT11 = 0x04 , # [doc = "1s increment each time SS\\[12:0\\]=0"]
BIT12 = 0x05 , # [doc = "1s increment each time SS\\[13:0\\]=0"]
BIT13 = 0x06 , # [doc = "1s increment each time SS\\[14:0\\]=0"]
BIT14 = 0x07 , } impl Bcdu { # [inline (always)]
pub const fn from_bits (val : u8) -> Bcdu { unsafe { core :: mem :: transmute (val & 0x07) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Bcdu { # [inline (always)]
fn from (val : u8) -> Bcdu { Bcdu :: from_bits (val) } } impl From < Bcdu > for u8 { # [inline (always)]
fn from (val : Bcdu) -> u8 { Bcdu :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Bin { # [doc = "Free running BCD calendar mode (Binary mode disabled)"]
BCD = 0x0 , # [doc = "Free running Binary mode (BCD mode disabled)"]
BINARY = 0x01 , # [doc = "Free running BCD calendar and Binary modes"]
BINBCD = 0x02 , # [doc = "Free running BCD calendar and Binary modes"]
BINBCD2 = 0x03 , } impl Bin { # [inline (always)]
pub const fn from_bits (val : u8) -> Bin { unsafe { core :: mem :: transmute (val & 0x03) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Bin { # [inline (always)]
fn from (val : u8) -> Bin { Bin :: from_bits (val) } } impl From < Bin > for u8 { # [inline (always)]
fn from (val : Bin) -> u8 { Bin :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Calp { # [doc = "No RTCCLK pulses are added"]
NOCHANGE = 0x0 , # [doc = "One RTCCLK pulse is effectively inserted every 2^11 pulses (frequency increased by 488.5 ppm)"]
INCREASEFREQ = 0x01 , } impl Calp { # [inline (always)]
pub const fn from_bits (val : u8) -> Calp { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Calp { # [inline (always)]
fn from (val : u8) -> Calp { Calp :: from_bits (val) } } impl From < Calp > for u8 { # [inline (always)]
fn from (val : Calp) -> u8 { Calp :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Calrf { _RESERVED_0 = 0x0 , # [doc = "Clear interrupt flag by writing 1"]
CLEAR = 0x01 , } impl Calrf { # [inline (always)]
pub const fn from_bits (val : u8) -> Calrf { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Calrf { # [inline (always)]
fn from (val : u8) -> Calrf { Calrf :: from_bits (val) } } impl From < Calrf > for u8 { # [inline (always)]
fn from (val : Calrf) -> u8 { Calrf :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Calw16 { _RESERVED_0 = 0x0 , # [doc = "When CALW16 is set to β€˜1’, the 16-second calibration cycle period is selected.This bit must not be set to β€˜1’ if CALW8=1"]
SIXTEENSECONDS = 0x01 , } impl Calw16 { # [inline (always)]
pub const fn from_bits (val : u8) -> Calw16 { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Calw16 { # [inline (always)]
fn from (val : u8) -> Calw16 { Calw16 :: from_bits (val) } } impl From < Calw16 > for u8 { # [inline (always)]
fn from (val : Calw16) -> u8 { Calw16 :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Calw8 { _RESERVED_0 = 0x0 , # [doc = "When CALW8 is set to β€˜1’, the 8-second calibration cycle period is selected"]
EIGHTSECONDS = 0x01 , } impl Calw8 { # [inline (always)]
pub const fn from_bits (val : u8) -> Calw8 { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Calw8 { # [inline (always)]
fn from (val : u8) -> Calw8 { Calw8 :: from_bits (val) } } impl From < Calw8 > for u8 { # [inline (always)]
fn from (val : Calw8) -> u8 { Calw8 :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Cosel { # [doc = "Calibration output is 512 Hz (with default prescaler setting)"]
CALFREQ_512HZ = 0x0 , # [doc = "Calibration output is 1 Hz (with default prescaler setting)"]
CALFREQ_1HZ = 0x01 , } impl Cosel { # [inline (always)]
pub const fn from_bits (val : u8) -> Cosel { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Cosel { # [inline (always)]
fn from (val : u8) -> Cosel { Cosel :: from_bits (val) } } impl From < Cosel > for u8 { # [inline (always)]
fn from (val : Cosel) -> u8 { Cosel :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Fmt { # [doc = "24 hour/day format"]
TWENTYFOURHOUR = 0x0 , # [doc = "AM/PM hour format"]
AMPM = 0x01 , } impl Fmt { # [inline (always)]
pub const fn from_bits (val : u8) -> Fmt { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Fmt { # [inline (always)]
fn from (val : u8) -> Fmt { Fmt :: from_bits (val) } } impl From < Fmt > for u8 { # [inline (always)]
fn from (val : Fmt) -> u8 { Fmt :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Itsf { _RESERVED_0 = 0x0 , # [doc = "This flag is set by hardware when a timestamp on the internal event occurs"]
TIMESTAMPEVENT = 0x01 , } impl Itsf { # [inline (always)]
pub const fn from_bits (val : u8) -> Itsf { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Itsf { # [inline (always)]
fn from (val : u8) -> Itsf { Itsf :: from_bits (val) } } impl From < Itsf > for u8 { # [inline (always)]
fn from (val : Itsf) -> u8 { Itsf :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Itsmf { _RESERVED_0 = 0x0 , # [doc = "This flag is set by hardware when a timestamp on the internal event occurs"]
TIMESTAMPEVENT = 0x01 , } impl Itsmf { # [inline (always)]
pub const fn from_bits (val : u8) -> Itsmf { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Itsmf { # [inline (always)]
fn from (val : u8) -> Itsmf { Itsmf :: from_bits (val) } } impl From < Itsmf > for u8 { # [inline (always)]
fn from (val : Itsmf) -> u8 { Itsmf :: to_bits (val) } } # [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub struct Key (pub u8) ; impl Key { # [doc = "Activate write protection (any value that is not the keys)"]
pub const ACTIVATE : Self = Self (0x0) ; # [doc = "Key 2"]
pub const DEACTIVATE2 : Self = Self (0x53) ; # [doc = "Key 1"]
pub const DEACTIVATE1 : Self = Self (0xca) ; } impl Key { pub const fn from_bits (val : u8) -> Key { Self (val & 0xff) } pub const fn to_bits (self) -> u8 { self . 0 } } impl From < u8 > for Key { # [inline (always)]
fn from (val : u8) -> Key { Key :: from_bits (val) } } impl From < Key > for u8 { # [inline (always)]
fn from (val : Key) -> u8 { Key :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Lpcal { # [doc = "Calibration window is 220 RTCCLK, which is a high-consumption mode. This mode should be set only when less than 32s calibration window is required"]
RTCCLK = 0x0 , # [doc = "Calibration window is 220 ck_apre, which is the required configuration for ultra-low consumption mode"]
CKAPRE = 0x01 , } impl Lpcal { # [inline (always)]
pub const fn from_bits (val : u8) -> Lpcal { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Lpcal { # [inline (always)]
fn from (val : u8) -> Lpcal { Lpcal :: from_bits (val) } } impl From < Lpcal > for u8 { # [inline (always)]
fn from (val : Lpcal) -> u8 { Lpcal :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Osel { # [doc = "Output disabled"]
DISABLED = 0x0 , # [doc = "Alarm A output enabled"]
ALARMA = 0x01 , # [doc = "Alarm B output enabled"]
ALARMB = 0x02 , # [doc = "Wakeup output enabled"]
WAKEUP = 0x03 , } impl Osel { # [inline (always)]
pub const fn from_bits (val : u8) -> Osel { unsafe { core :: mem :: transmute (val & 0x03) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Osel { # [inline (always)]
fn from (val : u8) -> Osel { Osel :: from_bits (val) } } impl From < Osel > for u8 { # [inline (always)]
fn from (val : Osel) -> u8 { Osel :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Pol { # [doc = "The pin is high when ALRAF/ALRBF/WUTF is asserted (depending on OSEL\\[1:0\\])"]
HIGH = 0x0 , # [doc = "The pin is low when ALRAF/ALRBF/WUTF is asserted (depending on OSEL\\[1:0\\])"]
LOW = 0x01 , } impl Pol { # [inline (always)]
pub const fn from_bits (val : u8) -> Pol { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Pol { # [inline (always)]
fn from (val : u8) -> Pol { Pol :: from_bits (val) } } impl From < Pol > for u8 { # [inline (always)]
fn from (val : Pol) -> u8 { Pol :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Recalpf { _RESERVED_0 = 0x0 , # [doc = "The RECALPF status flag is automatically set to 1 when software writes to the RTC_CALR register, indicating that the RTC_CALR register is blocked. When the new calibration settings are taken into account, this bit returns to 0"]
PENDING = 0x01 , } impl Recalpf { # [inline (always)]
pub const fn from_bits (val : u8) -> Recalpf { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Recalpf { # [inline (always)]
fn from (val : u8) -> Recalpf { Recalpf :: from_bits (val) } } impl From < Recalpf > for u8 { # [inline (always)]
fn from (val : Recalpf) -> u8 { Recalpf :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Ssruf { _RESERVED_0 = 0x0 , # [doc = "This flag is set by hardware when the SSR rolls under 0. SSRUF is not set when SSCLR=1"]
UNDERFLOW = 0x01 , } impl Ssruf { # [inline (always)]
pub const fn from_bits (val : u8) -> Ssruf { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Ssruf { # [inline (always)]
fn from (val : u8) -> Ssruf { Ssruf :: from_bits (val) } } impl From < Ssruf > for u8 { # [inline (always)]
fn from (val : Ssruf) -> u8 { Ssruf :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Ssrumf { _RESERVED_0 = 0x0 , # [doc = "This flag is set by hardware when the SSR rolls under 0. SSRUF is not set when SSCLR=1"]
UNDERFLOW = 0x01 , } impl Ssrumf { # [inline (always)]
pub const fn from_bits (val : u8) -> Ssrumf { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Ssrumf { # [inline (always)]
fn from (val : u8) -> Ssrumf { Ssrumf :: from_bits (val) } } impl From < Ssrumf > for u8 { # [inline (always)]
fn from (val : Ssrumf) -> u8 { Ssrumf :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum TampalrmType { # [doc = "TAMPALRM is push-pull output"]
PUSHPULL = 0x0 , # [doc = "TAMPALRM is open-drain output"]
OPENDRAIN = 0x01 , } impl TampalrmType { # [inline (always)]
pub const fn from_bits (val : u8) -> TampalrmType { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for TampalrmType { # [inline (always)]
fn from (val : u8) -> TampalrmType { TampalrmType :: from_bits (val) } } impl From < TampalrmType > for u8 { # [inline (always)]
fn from (val : TampalrmType) -> u8 { TampalrmType :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Tsedge { # [doc = "RTC_TS input rising edge generates a time-stamp event"]
RISINGEDGE = 0x0 , # [doc = "RTC_TS input falling edge generates a time-stamp event"]
FALLINGEDGE = 0x01 , } impl Tsedge { # [inline (always)]
pub const fn from_bits (val : u8) -> Tsedge { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Tsedge { # [inline (always)]
fn from (val : u8) -> Tsedge { Tsedge :: from_bits (val) } } impl From < Tsedge > for u8 { # [inline (always)]
fn from (val : Tsedge) -> u8 { Tsedge :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Tsf { _RESERVED_0 = 0x0 , # [doc = "This flag is set by hardware when a time-stamp event occurs"]
TIMESTAMPEVENT = 0x01 , } impl Tsf { # [inline (always)]
pub const fn from_bits (val : u8) -> Tsf { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Tsf { # [inline (always)]
fn from (val : u8) -> Tsf { Tsf :: from_bits (val) } } impl From < Tsf > for u8 { # [inline (always)]
fn from (val : Tsf) -> u8 { Tsf :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Tsmf { _RESERVED_0 = 0x0 , # [doc = "This flag is set by hardware when a time-stamp event occurs"]
TIMESTAMPEVENT = 0x01 , } impl Tsmf { # [inline (always)]
pub const fn from_bits (val : u8) -> Tsmf { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Tsmf { # [inline (always)]
fn from (val : u8) -> Tsmf { Tsmf :: from_bits (val) } } impl From < Tsmf > for u8 { # [inline (always)]
fn from (val : Tsmf) -> u8 { Tsmf :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Tsovf { _RESERVED_0 = 0x0 , # [doc = "This flag is set by hardware when a time-stamp event occurs while TSF is already set"]
OVERFLOW = 0x01 , } impl Tsovf { # [inline (always)]
pub const fn from_bits (val : u8) -> Tsovf { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Tsovf { # [inline (always)]
fn from (val : u8) -> Tsovf { Tsovf :: from_bits (val) } } impl From < Tsovf > for u8 { # [inline (always)]
fn from (val : Tsovf) -> u8 { Tsovf :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Tsovmf { _RESERVED_0 = 0x0 , # [doc = "This flag is set by hardware when a time-stamp event occurs while TSF is already set"]
OVERFLOW = 0x01 , } impl Tsovmf { # [inline (always)]
pub const fn from_bits (val : u8) -> Tsovmf { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Tsovmf { # [inline (always)]
fn from (val : u8) -> Tsovmf { Tsovmf :: from_bits (val) } } impl From < Tsovmf > for u8 { # [inline (always)]
fn from (val : Tsovmf) -> u8 { Tsovmf :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Wucksel { # [doc = "RTC/16 clock is selected"]
DIV16 = 0x0 , # [doc = "RTC/8 clock is selected"]
DIV8 = 0x01 , # [doc = "RTC/4 clock is selected"]
DIV4 = 0x02 , # [doc = "RTC/2 clock is selected"]
DIV2 = 0x03 , # [doc = "ck_spre (usually 1 Hz) clock is selected"]
CLOCKSPARE = 0x04 , _RESERVED_5 = 0x05 , # [doc = "ck_spre (usually 1 Hz) clock is selected and 2^16 is added to the WUT counter value"]
CLOCKSPAREWITHOFFSET = 0x06 , _RESERVED_7 = 0x07 , } impl Wucksel { # [inline (always)]
pub const fn from_bits (val : u8) -> Wucksel { unsafe { core :: mem :: transmute (val & 0x07) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Wucksel { # [inline (always)]
fn from (val : u8) -> Wucksel { Wucksel :: from_bits (val) } } impl From < Wucksel > for u8 { # [inline (always)]
fn from (val : Wucksel) -> u8 { Wucksel :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Wutf { _RESERVED_0 = 0x0 , # [doc = "This flag is set by hardware when the wakeup auto-reload counter reaches 0"]
ZERO = 0x01 , } impl Wutf { # [inline (always)]
pub const fn from_bits (val : u8) -> Wutf { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Wutf { # [inline (always)]
fn from (val : u8) -> Wutf { Wutf :: from_bits (val) } } impl From < Wutf > for u8 { # [inline (always)]
fn from (val : Wutf) -> u8 { Wutf :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Wutmf { _RESERVED_0 = 0x0 , # [doc = "This flag is set by hardware when the wakeup auto-reload counter reaches 0"]
ZERO = 0x01 , } impl Wutmf { # [inline (always)]
pub const fn from_bits (val : u8) -> Wutmf { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Wutmf { # [inline (always)]
fn from (val : u8) -> Wutmf { Wutmf :: from_bits (val) } } impl From < Wutmf > for u8 { # [inline (always)]
fn from (val : Wutmf) -> u8 { Wutmf :: to_bits (val) } } }