embassy/embassy-stm32/src/subghz/bit_sync.rs

/// Bit synchronization.
///
/// This must be cleared to `0x00` (the reset value) when using packet types
/// other than LoRa.
///
/// Argument of [`set_bit_sync`](crate::subghz::SubGhz::set_bit_sync).
#[derive(Debug, PartialEq, Eq, Clone, Copy)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub struct BitSync {
    val: u8,
}

impl BitSync {
    /// Bit synchronization register reset value.
    pub const RESET: BitSync = BitSync { val: 0x00 };

    /// Create a new [`BitSync`] structure from a raw value.
    ///
    /// Reserved bits will be masked.
    pub const fn from_raw(raw: u8) -> Self {
        Self { val: raw & 0x70 }
    }

    /// Get the raw value of the [`BitSync`] register.
    pub const fn as_bits(&self) -> u8 {
        self.val
    }

    /// LoRa simple bit synchronization enable.
    ///
    /// # Example
    ///
    /// Enable simple bit synchronization.
    ///
    /// ```
    /// use stm32wl_hal::subghz::BitSync;
    ///
    /// const BIT_SYNC: BitSync = BitSync::RESET.set_simple_bit_sync_en(true);
    /// # assert_eq!(u8::from(BIT_SYNC), 0x40u8);
    /// ```
    #[must_use = "set_simple_bit_sync_en returns a modified BitSync"]
    pub const fn set_simple_bit_sync_en(mut self, en: bool) -> BitSync {
        if en {
            self.val |= 1 << 6;
        } else {
            self.val &= !(1 << 6);
        }
        self
    }

    /// Returns `true` if simple bit synchronization is enabled.
    ///
    /// # Example
    ///
    /// ```
    /// use stm32wl_hal::subghz::BitSync;
    ///
    /// let bs: BitSync = BitSync::RESET;
    /// assert_eq!(bs.simple_bit_sync_en(), false);
    /// let bs: BitSync = bs.set_simple_bit_sync_en(true);
    /// assert_eq!(bs.simple_bit_sync_en(), true);
    /// let bs: BitSync = bs.set_simple_bit_sync_en(false);
    /// assert_eq!(bs.simple_bit_sync_en(), false);
    /// ```
    pub const fn simple_bit_sync_en(&self) -> bool {
        self.val & (1 << 6) != 0
    }

    /// LoRa RX data inversion.
    ///
    /// # Example
    ///
    /// Invert receive data.
    ///
    /// ```
    /// use stm32wl_hal::subghz::BitSync;
    ///
    /// const BIT_SYNC: BitSync = BitSync::RESET.set_rx_data_inv(true);
    /// # assert_eq!(u8::from(BIT_SYNC), 0x20u8);
    /// ```
    #[must_use = "set_rx_data_inv returns a modified BitSync"]
    pub const fn set_rx_data_inv(mut self, inv: bool) -> BitSync {
        if inv {
            self.val |= 1 << 5;
        } else {
            self.val &= !(1 << 5);
        }
        self
    }

    /// Returns `true` if LoRa RX data is inverted.
    ///
    /// # Example
    ///
    /// ```
    /// use stm32wl_hal::subghz::BitSync;
    ///
    /// let bs: BitSync = BitSync::RESET;
    /// assert_eq!(bs.rx_data_inv(), false);
    /// let bs: BitSync = bs.set_rx_data_inv(true);
    /// assert_eq!(bs.rx_data_inv(), true);
    /// let bs: BitSync = bs.set_rx_data_inv(false);
    /// assert_eq!(bs.rx_data_inv(), false);
    /// ```
    pub const fn rx_data_inv(&self) -> bool {
        self.val & (1 << 5) != 0
    }

    /// LoRa normal bit synchronization enable.
    ///
    /// # Example
    ///
    /// Enable normal bit synchronization.
    ///
    /// ```
    /// use stm32wl_hal::subghz::BitSync;
    ///
    /// const BIT_SYNC: BitSync = BitSync::RESET.set_norm_bit_sync_en(true);
    /// # assert_eq!(u8::from(BIT_SYNC), 0x10u8);
    /// ```
    #[must_use = "set_norm_bit_sync_en returns a modified BitSync"]
    pub const fn set_norm_bit_sync_en(mut self, en: bool) -> BitSync {
        if en {
            self.val |= 1 << 4;
        } else {
            self.val &= !(1 << 4);
        }
        self
    }

    /// Returns `true` if normal bit synchronization is enabled.
    ///
    /// # Example
    ///
    /// ```
    /// use stm32wl_hal::subghz::BitSync;
    ///
    /// let bs: BitSync = BitSync::RESET;
    /// assert_eq!(bs.norm_bit_sync_en(), false);
    /// let bs: BitSync = bs.set_norm_bit_sync_en(true);
    /// assert_eq!(bs.norm_bit_sync_en(), true);
    /// let bs: BitSync = bs.set_norm_bit_sync_en(false);
    /// assert_eq!(bs.norm_bit_sync_en(), false);
    /// ```
    pub const fn norm_bit_sync_en(&self) -> bool {
        self.val & (1 << 4) != 0
    }
}

impl From<BitSync> for u8 {
    fn from(bs: BitSync) -> Self {
        bs.val
    }
}

impl Default for BitSync {
    fn default() -> Self {
        Self::RESET
    }
}
Add HAL for SubGhz peripheral for STM32 WL series Based on the HAL from stm32wl, the peripheral driver has been modified to fit into embassy, using the embassy APIs, providing operation of the radio peripheral. The initial version does not offer any async APIs, but the example shows how the radio IRQ can be used to perform async TX of the radio. 2021-08-31 14:32:48 +02:00			`/// Bit synchronization.`
			`///`
			/// This must be cleared to `0x00` (the reset value) when using packet types
			`/// other than LoRa.`
			`///`
			/// Argument of [`set_bit_sync`](crate::subghz::SubGhz::set_bit_sync).
			`#[derive(Debug, PartialEq, Eq, Clone, Copy)]`
			`#[cfg_attr(feature = "defmt", derive(defmt::Format))]`
			`pub struct BitSync {`
			`val: u8,`
			`}`

			`impl BitSync {`
			`/// Bit synchronization register reset value.`
			`pub const RESET: BitSync = BitSync { val: 0x00 };`

			/// Create a new [`BitSync`] structure from a raw value.
			`///`
			`/// Reserved bits will be masked.`
			`pub const fn from_raw(raw: u8) -> Self {`
			`Self { val: raw & 0x70 }`
			`}`

			/// Get the raw value of the [`BitSync`] register.
			`pub const fn as_bits(&self) -> u8 {`
			`self.val`
			`}`

			`/// LoRa simple bit synchronization enable.`
			`///`
			`/// # Example`
			`///`
			`/// Enable simple bit synchronization.`
			`///`
			/// ```
			`/// use stm32wl_hal::subghz::BitSync;`
			`///`
			`/// const BIT_SYNC: BitSync = BitSync::RESET.set_simple_bit_sync_en(true);`
			`/// # assert_eq!(u8::from(BIT_SYNC), 0x40u8);`
			/// ```
			`#[must_use = "set_simple_bit_sync_en returns a modified BitSync"]`
			`pub const fn set_simple_bit_sync_en(mut self, en: bool) -> BitSync {`
			`if en {`
			`self.val \|= 1 << 6;`
			`} else {`
			`self.val &= !(1 << 6);`
			`}`
			`self`
			`}`

			/// Returns `true` if simple bit synchronization is enabled.
			`///`
			`/// # Example`
			`///`
			/// ```
			`/// use stm32wl_hal::subghz::BitSync;`
			`///`
			`/// let bs: BitSync = BitSync::RESET;`
			`/// assert_eq!(bs.simple_bit_sync_en(), false);`
			`/// let bs: BitSync = bs.set_simple_bit_sync_en(true);`
			`/// assert_eq!(bs.simple_bit_sync_en(), true);`
			`/// let bs: BitSync = bs.set_simple_bit_sync_en(false);`
			`/// assert_eq!(bs.simple_bit_sync_en(), false);`
			/// ```
			`pub const fn simple_bit_sync_en(&self) -> bool {`
			`self.val & (1 << 6) != 0`
			`}`

			`/// LoRa RX data inversion.`
			`///`
			`/// # Example`
			`///`
			`/// Invert receive data.`
			`///`
			/// ```
			`/// use stm32wl_hal::subghz::BitSync;`
			`///`
			`/// const BIT_SYNC: BitSync = BitSync::RESET.set_rx_data_inv(true);`
			`/// # assert_eq!(u8::from(BIT_SYNC), 0x20u8);`
			/// ```
			`#[must_use = "set_rx_data_inv returns a modified BitSync"]`
			`pub const fn set_rx_data_inv(mut self, inv: bool) -> BitSync {`
			`if inv {`
			`self.val \|= 1 << 5;`
			`} else {`
			`self.val &= !(1 << 5);`
			`}`
			`self`
			`}`

			/// Returns `true` if LoRa RX data is inverted.
			`///`
			`/// # Example`
			`///`
			/// ```
			`/// use stm32wl_hal::subghz::BitSync;`
			`///`
			`/// let bs: BitSync = BitSync::RESET;`
			`/// assert_eq!(bs.rx_data_inv(), false);`
			`/// let bs: BitSync = bs.set_rx_data_inv(true);`
			`/// assert_eq!(bs.rx_data_inv(), true);`
			`/// let bs: BitSync = bs.set_rx_data_inv(false);`
			`/// assert_eq!(bs.rx_data_inv(), false);`
			/// ```
			`pub const fn rx_data_inv(&self) -> bool {`
			`self.val & (1 << 5) != 0`
			`}`

			`/// LoRa normal bit synchronization enable.`
			`///`
			`/// # Example`
			`///`
			`/// Enable normal bit synchronization.`
			`///`
			/// ```
			`/// use stm32wl_hal::subghz::BitSync;`
			`///`
			`/// const BIT_SYNC: BitSync = BitSync::RESET.set_norm_bit_sync_en(true);`
			`/// # assert_eq!(u8::from(BIT_SYNC), 0x10u8);`
			/// ```
			`#[must_use = "set_norm_bit_sync_en returns a modified BitSync"]`
			`pub const fn set_norm_bit_sync_en(mut self, en: bool) -> BitSync {`
			`if en {`
			`self.val \|= 1 << 4;`
			`} else {`
			`self.val &= !(1 << 4);`
			`}`
			`self`
			`}`

			/// Returns `true` if normal bit synchronization is enabled.
			`///`
			`/// # Example`
			`///`
			/// ```
			`/// use stm32wl_hal::subghz::BitSync;`
			`///`
			`/// let bs: BitSync = BitSync::RESET;`
			`/// assert_eq!(bs.norm_bit_sync_en(), false);`
			`/// let bs: BitSync = bs.set_norm_bit_sync_en(true);`
			`/// assert_eq!(bs.norm_bit_sync_en(), true);`
			`/// let bs: BitSync = bs.set_norm_bit_sync_en(false);`
			`/// assert_eq!(bs.norm_bit_sync_en(), false);`
			/// ```
			`pub const fn norm_bit_sync_en(&self) -> bool {`
			`self.val & (1 << 4) != 0`
			`}`
			`}`

			`impl From<BitSync> for u8 {`
			`fn from(bs: BitSync) -> Self {`
			`bs.val`
			`}`
			`}`

			`impl Default for BitSync {`
			`fn default() -> Self {`
			`Self::RESET`
			`}`
			`}`