use {DataDirection, Register}; /// An IO pin. pub trait Pin { /// The associated data direction register. type DDR: Register; /// The associated port register. type PORT: Register; /// The associated pin register. /// /// Reads from the register will read input bits. /// Writes to the register will toggle bits. type PIN: Register; /// The mask of the pin used for accessing registers. const MASK: u8; /// Sets the data direction of the pin. #[inline(always)] fn set_direction(direction: DataDirection) { match direction { DataDirection::Input => Self::set_input(), DataDirection::Output => Self::set_output(), } } /// Sets the pin up as an input. #[inline(always)] fn set_input() { Self::DDR::unset_raw(Self::MASK); } /// Sets the pin up as an output. #[inline(always)] fn set_output() { Self::DDR::set_raw(Self::MASK); } /// Set the pin to high. /// /// The pin must be configured as an output. #[inline(always)] fn set_high() { Self::PORT::set_raw(Self::MASK); } /// Set the pin to low. /// /// The pin must be configured as an output. #[inline(always)] fn set_low() { Self::PORT::unset_raw(Self::MASK); } /// Toggles the pin. /// /// The pin must be configured as an output. #[inline(always)] fn toggle() { // FIXME: We can optimise this on post-2006 AVRs. // http://www.avrfreaks.net/forum/toggle-state-output-pin // set(Self::PIN, Self::MASK); Self::PORT::toggle_raw(Self::MASK); } /// Check if the pin is currently high. /// /// The pin must be configured as an input. #[inline(always)] fn is_high() -> bool { Self::PIN::is_set_raw(Self::MASK) } /// Checks if the pin is currently low. /// /// The pin must be configured as an input. #[inline(always)] fn is_low() -> bool { Self::PIN::is_clear_raw(Self::MASK) } }