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

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/// 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
}
}