Struct stm32_metapac::lptim::regs::Isr
#[repr(transparent)]pub struct Isr(pub u32);
Expand description
LPTIM interrupt and status register.
Tuple Fields§
§0: u32
Implementations§
§impl Isr
impl Isr
pub const fn ccif(&self, n: usize) -> bool
pub const fn ccif(&self, n: usize) -> bool
Compare 1 interrupt flag The CC1IF flag is set by hardware to inform application that LPTIM_CNT register value matches the compare register’s value. The CC1IF flag can be cleared by writing 1 to the CC1CF bit in the LPTIM_ICR register.
pub fn set_ccif(&mut self, n: usize, val: bool)
pub fn set_ccif(&mut self, n: usize, val: bool)
Compare 1 interrupt flag The CC1IF flag is set by hardware to inform application that LPTIM_CNT register value matches the compare register’s value. The CC1IF flag can be cleared by writing 1 to the CC1CF bit in the LPTIM_ICR register.
pub const fn arrm(&self) -> bool
pub const fn arrm(&self) -> bool
Autoreload match ARRM is set by hardware to inform application that LPTIM_CNT register’s value reached the LPTIM_ARR register’s value. ARRM flag can be cleared by writing 1 to the ARRMCF bit in the LPTIM_ICR register.
pub fn set_arrm(&mut self, val: bool)
pub fn set_arrm(&mut self, val: bool)
Autoreload match ARRM is set by hardware to inform application that LPTIM_CNT register’s value reached the LPTIM_ARR register’s value. ARRM flag can be cleared by writing 1 to the ARRMCF bit in the LPTIM_ICR register.
pub const fn exttrig(&self) -> bool
pub const fn exttrig(&self) -> bool
External trigger edge event EXTTRIG is set by hardware to inform application that a valid edge on the selected external trigger input has occurred. If the trigger is ignored because the timer has already started, then this flag is not set. EXTTRIG flag can be cleared by writing 1 to the EXTTRIGCF bit in the LPTIM_ICR register.
pub fn set_exttrig(&mut self, val: bool)
pub fn set_exttrig(&mut self, val: bool)
External trigger edge event EXTTRIG is set by hardware to inform application that a valid edge on the selected external trigger input has occurred. If the trigger is ignored because the timer has already started, then this flag is not set. EXTTRIG flag can be cleared by writing 1 to the EXTTRIGCF bit in the LPTIM_ICR register.
pub const fn cmpok(&self, n: usize) -> bool
pub const fn cmpok(&self, n: usize) -> bool
Compare register 1 update OK CMP1OK is set by hardware to inform application that the APB bus write operation to the LPTIM_CCR1 register has been successfully completed. CMP1OK flag can be cleared by writing 1 to the CMP1OKCF bit in the LPTIM_ICR register.
pub fn set_cmpok(&mut self, n: usize, val: bool)
pub fn set_cmpok(&mut self, n: usize, val: bool)
Compare register 1 update OK CMP1OK is set by hardware to inform application that the APB bus write operation to the LPTIM_CCR1 register has been successfully completed. CMP1OK flag can be cleared by writing 1 to the CMP1OKCF bit in the LPTIM_ICR register.
pub const fn arrok(&self) -> bool
pub const fn arrok(&self) -> bool
Autoreload register update OK ARROK is set by hardware to inform application that the APB bus write operation to the LPTIM_ARR register has been successfully completed. ARROK flag can be cleared by writing 1 to the ARROKCF bit in the LPTIM_ICR register.
pub fn set_arrok(&mut self, val: bool)
pub fn set_arrok(&mut self, val: bool)
Autoreload register update OK ARROK is set by hardware to inform application that the APB bus write operation to the LPTIM_ARR register has been successfully completed. ARROK flag can be cleared by writing 1 to the ARROKCF bit in the LPTIM_ICR register.
pub const fn up(&self) -> bool
pub const fn up(&self) -> bool
Counter direction change down to up In Encoder mode, UP bit is set by hardware to inform application that the counter direction has changed from down to up. UP flag can be cleared by writing 1 to the UPCF bit in the LPTIM_ICR register. Note: If the LPTIM does not support encoder mode feature, this bit is reserved. Please refer to.
pub fn set_up(&mut self, val: bool)
pub fn set_up(&mut self, val: bool)
Counter direction change down to up In Encoder mode, UP bit is set by hardware to inform application that the counter direction has changed from down to up. UP flag can be cleared by writing 1 to the UPCF bit in the LPTIM_ICR register. Note: If the LPTIM does not support encoder mode feature, this bit is reserved. Please refer to.
pub const fn down(&self) -> bool
pub const fn down(&self) -> bool
Counter direction change up to down In Encoder mode, DOWN bit is set by hardware to inform application that the counter direction has changed from up to down. DOWN flag can be cleared by writing 1 to the DOWNCF bit in the LPTIM_ICR register. Note: If the LPTIM does not support encoder mode feature, this bit is reserved. Please refer to.
pub fn set_down(&mut self, val: bool)
pub fn set_down(&mut self, val: bool)
Counter direction change up to down In Encoder mode, DOWN bit is set by hardware to inform application that the counter direction has changed from up to down. DOWN flag can be cleared by writing 1 to the DOWNCF bit in the LPTIM_ICR register. Note: If the LPTIM does not support encoder mode feature, this bit is reserved. Please refer to.
pub const fn ue(&self) -> bool
pub const fn ue(&self) -> bool
LPTIM update event occurred UE is set by hardware to inform application that an update event was generated. UE flag can be cleared by writing 1 to the UECF bit in the LPTIM_ICR register.
pub fn set_ue(&mut self, val: bool)
pub fn set_ue(&mut self, val: bool)
LPTIM update event occurred UE is set by hardware to inform application that an update event was generated. UE flag can be cleared by writing 1 to the UECF bit in the LPTIM_ICR register.
pub const fn repok(&self) -> bool
pub const fn repok(&self) -> bool
Repetition register update OK REPOK is set by hardware to inform application that the APB bus write operation to the LPTIM_RCR register has been successfully completed. REPOK flag can be cleared by writing 1 to the REPOKCF bit in the LPTIM_ICR register.
pub fn set_repok(&mut self, val: bool)
pub fn set_repok(&mut self, val: bool)
Repetition register update OK REPOK is set by hardware to inform application that the APB bus write operation to the LPTIM_RCR register has been successfully completed. REPOK flag can be cleared by writing 1 to the REPOKCF bit in the LPTIM_ICR register.
pub const fn ccof(&self, n: usize) -> bool
pub const fn ccof(&self, n: usize) -> bool
Capture 1 over-capture flag This flag is set by hardware only when the corresponding channel is configured in input capture mode. It is cleared by software by writing 1 to the CC1OCF bit in the LPTIM_ICR register. Note: If LPTIM does not implement at least 1 channel this bit is reserved. Please refer to.
pub fn set_ccof(&mut self, n: usize, val: bool)
pub fn set_ccof(&mut self, n: usize, val: bool)
Capture 1 over-capture flag This flag is set by hardware only when the corresponding channel is configured in input capture mode. It is cleared by software by writing 1 to the CC1OCF bit in the LPTIM_ICR register. Note: If LPTIM does not implement at least 1 channel this bit is reserved. Please refer to.
pub const fn dierok(&self) -> bool
pub const fn dierok(&self) -> bool
Interrupt enable register update OK DIEROK is set by hardware to inform application that the APB bus write operation to the LPTIM_DIER register has been successfully completed. DIEROK flag can be cleared by writing 1 to the DIEROKCF bit in the LPTIM_ICR register.
pub fn set_dierok(&mut self, val: bool)
pub fn set_dierok(&mut self, val: bool)
Interrupt enable register update OK DIEROK is set by hardware to inform application that the APB bus write operation to the LPTIM_DIER register has been successfully completed. DIEROK flag can be cleared by writing 1 to the DIEROKCF bit in the LPTIM_ICR register.
Trait Implementations§
impl Copy for Isr
impl Eq for Isr
impl StructuralPartialEq for Isr
Auto Trait Implementations§
impl Freeze for Isr
impl RefUnwindSafe for Isr
impl Send for Isr
impl Sync for Isr
impl Unpin for Isr
impl UnwindSafe for Isr
Blanket Implementations§
source§impl<T> BorrowMut<T> for Twhere
T: ?Sized,
impl<T> BorrowMut<T> for Twhere
T: ?Sized,
source§fn borrow_mut(&mut self) -> &mut T
fn borrow_mut(&mut self) -> &mut T
source§impl<T> CloneToUninit for Twhere
T: Clone,
impl<T> CloneToUninit for Twhere
T: Clone,
source§unsafe fn clone_to_uninit(&self, dst: *mut T)
unsafe fn clone_to_uninit(&self, dst: *mut T)
clone_to_uninit
)