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Struct stm32_metapac::rcc::regs::Ccipr1

#[repr(transparent)]
pub struct Ccipr1(pub u32);
Expand description

RCC peripherals independent clock configuration register 1

Tuple Fields§

§0: u32

Implementations§

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impl Ccipr1

pub const fn usart1sel(&self) -> Usart1sel

USART1 kernel clock source selection This bits are used to select the USART1 kernel clock source. Note: The USART1 is functional in Stop 0 and Stop 1 mode only when the kernel clock is HSI or LSE.

pub fn set_usart1sel(&mut self, val: Usart1sel)

USART1 kernel clock source selection This bits are used to select the USART1 kernel clock source. Note: The USART1 is functional in Stop 0 and Stop 1 mode only when the kernel clock is HSI or LSE.

pub const fn usart2sel(&self) -> Usartsel

USART2 kernel clock source selection This bits are used to select the USART2 kernel clock source. Note: The USART2 is functional in Stop 0 and Stop 1 mode only when the kernel clock is HSI or LSE.

pub fn set_usart2sel(&mut self, val: Usartsel)

USART2 kernel clock source selection This bits are used to select the USART2 kernel clock source. Note: The USART2 is functional in Stop 0 and Stop 1 mode only when the kernel clock is HSI or LSE.

pub const fn usart3sel(&self) -> Usartsel

USART3 kernel clock source selection This bits are used to select the USART3 kernel clock source. Note: The USART3 is functional in Stop 0 and Stop 1 mode only when the kernel clock is HSI or LSE.

pub fn set_usart3sel(&mut self, val: Usartsel)

USART3 kernel clock source selection This bits are used to select the USART3 kernel clock source. Note: The USART3 is functional in Stop 0 and Stop 1 mode only when the kernel clock is HSI or LSE.

pub const fn uart4sel(&self) -> Usartsel

UART4 kernel clock source selection This bits are used to select the UART4 kernel clock source. Note: The UART4 is functional in Stop 0 and Stop 1 mode only when the kernel clock is HSI or LSE.

pub fn set_uart4sel(&mut self, val: Usartsel)

UART4 kernel clock source selection This bits are used to select the UART4 kernel clock source. Note: The UART4 is functional in Stop 0 and Stop 1 mode only when the kernel clock is HSI or LSE.

pub const fn uart5sel(&self) -> Usartsel

UART5 kernel clock source selection These bits are used to select the UART5 kernel clock source. Note: The UART5 is functional in Stop 0 and Stop 1 mode only when the kernel clock is HSI or LSE.

pub fn set_uart5sel(&mut self, val: Usartsel)

UART5 kernel clock source selection These bits are used to select the UART5 kernel clock source. Note: The UART5 is functional in Stop 0 and Stop 1 mode only when the kernel clock is HSI or LSE.

pub const fn i2c1sel(&self) -> I2csel

I2C1 kernel clock source selection These bits are used to select the I2C1 kernel clock source. Note: The I2C1 is functional in Stop 0 and Stop 1 mode only when the kernel clock is HSI or MSIK.

pub fn set_i2c1sel(&mut self, val: I2csel)

I2C1 kernel clock source selection These bits are used to select the I2C1 kernel clock source. Note: The I2C1 is functional in Stop 0 and Stop 1 mode only when the kernel clock is HSI or MSIK.

pub const fn i2c2sel(&self) -> I2csel

I2C2 kernel clock source selection These bits are used to select the I2C2 kernel clock source. Note: The I2C2 is functional in Stop 0 and Stop 1 mode only when the kernel clock is HSI or MSIK.

pub fn set_i2c2sel(&mut self, val: I2csel)

I2C2 kernel clock source selection These bits are used to select the I2C2 kernel clock source. Note: The I2C2 is functional in Stop 0 and Stop 1 mode only when the kernel clock is HSI or MSIK.

pub const fn i2c4sel(&self) -> I2csel

I2C4 kernel clock source selection These bits are used to select the I2C4 kernel clock source. Note: The I2C4 is functional in Stop 0 and Stop 1 mode only when the kernel clock is HSI or MSIK.

pub fn set_i2c4sel(&mut self, val: I2csel)

I2C4 kernel clock source selection These bits are used to select the I2C4 kernel clock source. Note: The I2C4 is functional in Stop 0 and Stop 1 mode only when the kernel clock is HSI or MSIK.

pub const fn spi2sel(&self) -> Spi2sel

SPI2 kernel clock source selection These bits are used to select the SPI2 kernel clock source. Note: The SPI2 is functional in Stop 0 and Stop 1 mode only when the kernel clock is HSI or MSIK.

pub fn set_spi2sel(&mut self, val: Spi2sel)

SPI2 kernel clock source selection These bits are used to select the SPI2 kernel clock source. Note: The SPI2 is functional in Stop 0 and Stop 1 mode only when the kernel clock is HSI or MSIK.

pub const fn lptim2sel(&self) -> Lptim2sel

Low-power timer 2 kernel clock source selection These bits are used to select the LPTIM2 kernel clock source. Note: The LPTIM2 is functional in Stop 0 and Stop 1 mode only when the kernel clock is LSI, LSE or HSI if HSIKERON = 1.

pub fn set_lptim2sel(&mut self, val: Lptim2sel)

Low-power timer 2 kernel clock source selection These bits are used to select the LPTIM2 kernel clock source. Note: The LPTIM2 is functional in Stop 0 and Stop 1 mode only when the kernel clock is LSI, LSE or HSI if HSIKERON = 1.

pub const fn spi1sel(&self) -> Spi1sel

SPI1 kernel clock source selection These bits are used to select the SPI1 kernel clock source. Note: The SPI1 is functional in Stop 0 and Stop 1 mode only when the kernel clock is HSI or MSIK.

pub fn set_spi1sel(&mut self, val: Spi1sel)

SPI1 kernel clock source selection These bits are used to select the SPI1 kernel clock source. Note: The SPI1 is functional in Stop 0 and Stop 1 mode only when the kernel clock is HSI or MSIK.

pub const fn systicksel(&self) -> Systicksel

SysTick clock source selection These bits are used to select the SysTick clock source. Note: When LSE or LSI is selected, the AHB frequency must be at least four times higher than the LSI or LSE frequency. In addition, a jitter up to one HCLK cycle is introduced, due to the LSE or LSI sampling with HCLK in the SysTick circuitry.

pub fn set_systicksel(&mut self, val: Systicksel)

SysTick clock source selection These bits are used to select the SysTick clock source. Note: When LSE or LSI is selected, the AHB frequency must be at least four times higher than the LSI or LSE frequency. In addition, a jitter up to one HCLK cycle is introduced, due to the LSE or LSI sampling with HCLK in the SysTick circuitry.

pub const fn fdcan1sel(&self) -> Fdcansel

FDCAN1 kernel clock source selection These bits are used to select the FDCAN1 kernel clock source.

pub fn set_fdcan1sel(&mut self, val: Fdcansel)

FDCAN1 kernel clock source selection These bits are used to select the FDCAN1 kernel clock source.

pub const fn iclksel(&self) -> Iclksel

intermediate clock source selection These bits are used to select the clock source used by OTG_FS and SDMMC.

pub fn set_iclksel(&mut self, val: Iclksel)

intermediate clock source selection These bits are used to select the clock source used by OTG_FS and SDMMC.

pub const fn timicsel(&self) -> Timicsel

Clocks sources for TIM16,TIM17 and LPTIM2 internal input capture When the TIMICSEL2 bit is set, the TIM16, TIM17 and LPTIM2 internal input capture can be connected either to HSI/256, MSI/4 or MSI/1024. Depending on TIMICSEL[1:0] value, MSI is either MSIK or MSIS. When TIMICSEL2 is cleared, the HSI, MSIK and MSIS clock sources cannot be selected as TIM16, TIM17 or LPTIM2 internal input capture. 0xx: HSI, MSIK and MSIS dividers disabled Note: The clock division must be disabled (TIMICSEL configured to 0xx) before selecting or changing a clock sources division.

pub fn set_timicsel(&mut self, val: Timicsel)

Clocks sources for TIM16,TIM17 and LPTIM2 internal input capture When the TIMICSEL2 bit is set, the TIM16, TIM17 and LPTIM2 internal input capture can be connected either to HSI/256, MSI/4 or MSI/1024. Depending on TIMICSEL[1:0] value, MSI is either MSIK or MSIS. When TIMICSEL2 is cleared, the HSI, MSIK and MSIS clock sources cannot be selected as TIM16, TIM17 or LPTIM2 internal input capture. 0xx: HSI, MSIK and MSIS dividers disabled Note: The clock division must be disabled (TIMICSEL configured to 0xx) before selecting or changing a clock sources division.

Trait Implementations§

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impl Clone for Ccipr1

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fn clone(&self) -> Ccipr1

Returns a copy of the value. Read more
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fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
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impl Default for Ccipr1

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fn default() -> Ccipr1

Returns the “default value” for a type. Read more
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impl PartialEq for Ccipr1

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fn eq(&self, other: &Ccipr1) -> bool

Tests for self and other values to be equal, and is used by ==.
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fn ne(&self, other: &Rhs) -> bool

Tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.
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impl Copy for Ccipr1

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impl Eq for Ccipr1

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impl StructuralPartialEq for Ccipr1

Auto Trait Implementations§

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impl Freeze for Ccipr1

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impl RefUnwindSafe for Ccipr1

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impl Send for Ccipr1

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impl Sync for Ccipr1

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impl Unpin for Ccipr1

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impl UnwindSafe for Ccipr1

Blanket Implementations§

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impl<T> Any for T
where T: 'static + ?Sized,

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fn type_id(&self) -> TypeId

Gets the TypeId of self. Read more
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impl<T> Borrow<T> for T
where T: ?Sized,

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fn borrow(&self) -> &T

Immutably borrows from an owned value. Read more
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impl<T> BorrowMut<T> for T
where T: ?Sized,

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fn borrow_mut(&mut self) -> &mut T

Mutably borrows from an owned value. Read more
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impl<T> CloneToUninit for T
where T: Clone,

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unsafe fn clone_to_uninit(&self, dst: *mut T)

🔬This is a nightly-only experimental API. (clone_to_uninit)
Performs copy-assignment from self to dst. Read more
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impl<T> From<T> for T

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fn from(t: T) -> T

Returns the argument unchanged.

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impl<T, U> Into<U> for T
where U: From<T>,

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fn into(self) -> U

Calls U::from(self).

That is, this conversion is whatever the implementation of From<T> for U chooses to do.

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impl<T, U> TryFrom<U> for T
where U: Into<T>,

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type Error = Infallible

The type returned in the event of a conversion error.
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fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>

Performs the conversion.
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impl<T, U> TryInto<U> for T
where U: TryFrom<T>,

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type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.
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fn try_into(self) -> Result<U, <U as TryFrom<T>>::Error>

Performs the conversion.