PlantCtrl/rust/src/sipo.rs

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Rust
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2023-12-22 01:35:08 +01:00
//! Serial-in parallel-out shift register
use core::cell::RefCell;
use core::mem::{self, MaybeUninit};
use crate::hal::digital::v2::OutputPin;
trait ShiftRegisterInternal {
fn update(&self, index: usize, command: bool) -> Result<(), ()>;
}
/// Output pin of the shift register
pub struct ShiftRegisterPin<'a>
{
shift_register: &'a dyn ShiftRegisterInternal,
index: usize,
}
impl<'a> ShiftRegisterPin<'a>
{
fn new(shift_register: &'a dyn ShiftRegisterInternal, index: usize) -> Self {
ShiftRegisterPin { shift_register, index }
}
}
impl OutputPin for ShiftRegisterPin<'_>
{
type Error = ();
fn set_low(&mut self) -> Result<(), Self::Error> {
self.shift_register.update(self.index, false)?;
Ok(())
}
fn set_high(&mut self) -> Result<(), Self::Error> {
self.shift_register.update(self.index, true)?;
Ok(())
}
}
macro_rules! ShiftRegisterBuilder {
($name: ident, $size: expr) => {
/// Serial-in parallel-out shift register
pub struct $name<Pin1, Pin2, Pin3>
where Pin1: OutputPin,
Pin2: OutputPin,
Pin3: OutputPin
{
clock: RefCell<Pin1>,
latch: RefCell<Pin2>,
data: RefCell<Pin3>,
output_state: RefCell<[bool; $size]>,
}
impl<Pin1, Pin2, Pin3> ShiftRegisterInternal for $name<Pin1, Pin2, Pin3>
where Pin1: OutputPin,
Pin2: OutputPin,
Pin3: OutputPin
{
/// Sets the value of the shift register output at `index` to value `command`
fn update(&self, index: usize, command: bool) -> Result<(), ()>{
self.output_state.borrow_mut()[index] = command;
let output_state = self.output_state.borrow();
self.latch.borrow_mut().set_low().map_err(|_e| ())?;
for i in 1..=output_state.len() {
if output_state[output_state.len() - i] {
self.data.borrow_mut().set_high().map_err(|_e| ())?;
} else {
self.data.borrow_mut().set_low().map_err(|_e| ())?;
}
self.clock.borrow_mut().set_high().map_err(|_e| ())?;
self.clock.borrow_mut().set_low().map_err(|_e| ())?;
}
self.latch.borrow_mut().set_high().map_err(|_e| ())?;
Ok(())
}
}
impl<Pin1, Pin2, Pin3> $name<Pin1, Pin2, Pin3>
where Pin1: OutputPin,
Pin2: OutputPin,
Pin3: OutputPin
{
/// Creates a new SIPO shift register from clock, latch, and data output pins
pub fn new(clock: Pin1, latch: Pin2, data: Pin3) -> Self {
$name {
clock: RefCell::new(clock),
latch: RefCell::new(latch),
data: RefCell::new(data),
output_state: RefCell::new([false; $size]),
}
}
/// Get embedded-hal output pins to control the shift register outputs
pub fn decompose(&self) -> [ShiftRegisterPin; $size] {
// Create an uninitialized array of `MaybeUninit`. The `assume_init` is
// safe because the type we are claiming to have initialized here is a
// bunch of `MaybeUninit`s, which do not require initialization.
let mut pins: [MaybeUninit<ShiftRegisterPin>; $size] = unsafe {
MaybeUninit::uninit().assume_init()
};
// Dropping a `MaybeUninit` does nothing, so if there is a panic during this loop,
// we have a memory leak, but there is no memory safety issue.
for (index, elem) in pins.iter_mut().enumerate() {
elem.write(ShiftRegisterPin::new(self, index));
}
// Everything is initialized. Transmute the array to the
// initialized type.
unsafe { mem::transmute::<_, [ShiftRegisterPin; $size]>(pins) }
}
/// Consume the shift register and return the original clock, latch, and data output pins
pub fn release(self) -> (Pin1, Pin2, Pin3) {
let Self{clock, latch, data, output_state: _} = self;
(clock.into_inner(), latch.into_inner(), data.into_inner())
}
}
}
}
ShiftRegisterBuilder!(ShiftRegister8, 8);
ShiftRegisterBuilder!(ShiftRegister16, 16);
ShiftRegisterBuilder!(ShiftRegister24, 24);
ShiftRegisterBuilder!(ShiftRegister32, 32);
ShiftRegisterBuilder!(ShiftRegister40, 40);
ShiftRegisterBuilder!(ShiftRegister48, 48);
ShiftRegisterBuilder!(ShiftRegister56, 56);
ShiftRegisterBuilder!(ShiftRegister64, 64);
ShiftRegisterBuilder!(ShiftRegister72, 72);
ShiftRegisterBuilder!(ShiftRegister80, 80);
ShiftRegisterBuilder!(ShiftRegister88, 88);
ShiftRegisterBuilder!(ShiftRegister96, 96);
ShiftRegisterBuilder!(ShiftRegister104, 104);
ShiftRegisterBuilder!(ShiftRegister112, 112);
ShiftRegisterBuilder!(ShiftRegister120, 120);
ShiftRegisterBuilder!(ShiftRegister128, 128);
/// 8 output serial-in parallel-out shift register
pub type ShiftRegister<Pin1, Pin2, Pin3> = ShiftRegister8<Pin1, Pin2, Pin3>;