//! Pulse Width Modulation (PWM) use embassy_hal_common::{into_ref, Peripheral, PeripheralRef}; use fixed::traits::ToFixed; use fixed::FixedU16; use pac::pwm::regs::{ChDiv, Intr}; use pac::pwm::vals::Divmode; use crate::gpio::sealed::Pin as _; use crate::gpio::{AnyPin, Pin as GpioPin}; use crate::{pac, peripherals, RegExt}; #[non_exhaustive] #[derive(Clone)] pub struct Config { pub invert_a: bool, pub invert_b: bool, pub phase_correct: bool, pub enable: bool, pub divider: fixed::FixedU16, pub compare_a: u16, pub compare_b: u16, pub top: u16, } impl Default for Config { fn default() -> Self { Self { invert_a: false, invert_b: false, phase_correct: false, enable: true, // differs from reset value divider: 1.to_fixed(), compare_a: 0, compare_b: 0, top: 0xffff, } } } pub enum InputMode { Level, RisingEdge, FallingEdge, } impl From for Divmode { fn from(value: InputMode) -> Self { match value { InputMode::Level => Divmode::LEVEL, InputMode::RisingEdge => Divmode::RISE, InputMode::FallingEdge => Divmode::FALL, } } } pub struct Pwm<'d, T: Channel> { inner: PeripheralRef<'d, T>, pin_a: Option>, pin_b: Option>, } impl<'d, T: Channel> Pwm<'d, T> { fn new_inner( inner: impl Peripheral

+ 'd, a: Option>, b: Option>, config: Config, divmode: Divmode, ) -> Self { into_ref!(inner); let p = inner.regs(); unsafe { p.csr().modify(|w| { w.set_divmode(divmode); w.set_en(false); }); p.ctr().write(|w| w.0 = 0); Self::configure(p, &config); if let Some(pin) = &a { pin.io().ctrl().write(|w| w.set_funcsel(4)); } if let Some(pin) = &b { pin.io().ctrl().write(|w| w.set_funcsel(4)); } } Self { inner, pin_a: a.into(), pin_b: b.into(), } } #[inline] pub fn new_free(inner: impl Peripheral

+ 'd, config: Config) -> Self { Self::new_inner(inner, None, None, config, Divmode::DIV) } #[inline] pub fn new_output_a( inner: impl Peripheral

+ 'd, a: impl Peripheral

> + 'd, config: Config, ) -> Self { into_ref!(a); Self::new_inner(inner, Some(a.map_into()), None, config, Divmode::DIV) } #[inline] pub fn new_output_b( inner: impl Peripheral

+ 'd, b: impl Peripheral

> + 'd, config: Config, ) -> Self { into_ref!(b); Self::new_inner(inner, None, Some(b.map_into()), config, Divmode::DIV) } #[inline] pub fn new_output_ab( inner: impl Peripheral

+ 'd, a: impl Peripheral

> + 'd, b: impl Peripheral

> + 'd, config: Config, ) -> Self { into_ref!(a, b); Self::new_inner(inner, Some(a.map_into()), Some(b.map_into()), config, Divmode::DIV) } #[inline] pub fn new_input( inner: impl Peripheral

+ 'd, b: impl Peripheral

> + 'd, mode: InputMode, config: Config, ) -> Self { into_ref!(b); Self::new_inner(inner, None, Some(b.map_into()), config, mode.into()) } #[inline] pub fn new_output_input( inner: impl Peripheral

+ 'd, a: impl Peripheral

> + 'd, b: impl Peripheral

> + 'd, mode: InputMode, config: Config, ) -> Self { into_ref!(a, b); Self::new_inner(inner, Some(a.map_into()), Some(b.map_into()), config, mode.into()) } pub fn set_config(&mut self, config: &Config) { Self::configure(self.inner.regs(), config); } fn configure(p: pac::pwm::Channel, config: &Config) { if config.divider > FixedU16::::from_bits(0xFF_F) { panic!("Requested divider is too large"); } unsafe { p.div().write_value(ChDiv(config.divider.to_bits() as u32)); p.cc().write(|w| { w.set_a(config.compare_a); w.set_b(config.compare_b); }); p.top().write(|w| w.set_top(config.top)); p.csr().modify(|w| { w.set_a_inv(config.invert_a); w.set_b_inv(config.invert_b); w.set_ph_correct(config.phase_correct); w.set_en(config.enable); }); } } #[inline] pub unsafe fn phase_advance(&mut self) { let p = self.inner.regs(); p.csr().write_set(|w| w.set_ph_adv(true)); while p.csr().read().ph_adv() {} } #[inline] pub unsafe fn phase_retard(&mut self) { let p = self.inner.regs(); p.csr().write_set(|w| w.set_ph_ret(true)); while p.csr().read().ph_ret() {} } #[inline] pub fn counter(&self) -> u16 { unsafe { self.inner.regs().ctr().read().ctr() } } #[inline] pub fn set_counter(&self, ctr: u16) { unsafe { self.inner.regs().ctr().write(|w| w.set_ctr(ctr)) } } #[inline] pub fn wait_for_wrap(&mut self) { while !self.wrapped() {} self.clear_wrapped(); } #[inline] pub fn wrapped(&mut self) -> bool { unsafe { pac::PWM.intr().read().0 & self.bit() != 0 } } #[inline] pub fn clear_wrapped(&mut self) { unsafe { pac::PWM.intr().write_value(Intr(self.bit() as _)); } } #[inline] fn bit(&self) -> u32 { 1 << self.inner.number() as usize } } pub struct PwmBatch(u32); impl PwmBatch { #[inline] pub fn enable(&mut self, pwm: &Pwm<'_, impl Channel>) { self.0 |= pwm.bit(); } #[inline] pub fn set_enabled(enabled: bool, batch: impl FnOnce(&mut PwmBatch)) { let mut en = PwmBatch(0); batch(&mut en); unsafe { if enabled { pac::PWM.en().write_set(|w| w.0 = en.0); } else { pac::PWM.en().write_clear(|w| w.0 = en.0); } } } } impl<'d, T: Channel> Drop for Pwm<'d, T> { fn drop(&mut self) { unsafe { self.inner.regs().csr().write_clear(|w| w.set_en(false)); if let Some(pin) = &self.pin_a { pin.io().ctrl().write(|w| w.set_funcsel(31)); } if let Some(pin) = &self.pin_b { pin.io().ctrl().write(|w| w.set_funcsel(31)); } } } } mod sealed { pub trait Channel {} } pub trait Channel: Peripheral

+ sealed::Channel + Sized + 'static { fn number(&self) -> u8; fn regs(&self) -> pac::pwm::Channel { pac::PWM.ch(self.number() as _) } } macro_rules! channel { ($name:ident, $num:expr) => { impl sealed::Channel for peripherals::$name {} impl Channel for peripherals::$name { fn number(&self) -> u8 { $num } } }; } channel!(PWM_CH0, 0); channel!(PWM_CH1, 1); channel!(PWM_CH2, 2); channel!(PWM_CH3, 3); channel!(PWM_CH4, 4); channel!(PWM_CH5, 5); channel!(PWM_CH6, 6); channel!(PWM_CH7, 7); pub trait PwmPinA: GpioPin {} pub trait PwmPinB: GpioPin {} macro_rules! impl_pin { ($pin:ident, $channel:ident, $kind:ident) => { impl $kind for peripherals::$pin {} }; } impl_pin!(PIN_0, PWM_CH0, PwmPinA); impl_pin!(PIN_1, PWM_CH0, PwmPinB); impl_pin!(PIN_2, PWM_CH1, PwmPinA); impl_pin!(PIN_3, PWM_CH1, PwmPinB); impl_pin!(PIN_4, PWM_CH2, PwmPinA); impl_pin!(PIN_5, PWM_CH2, PwmPinB); impl_pin!(PIN_6, PWM_CH3, PwmPinA); impl_pin!(PIN_7, PWM_CH3, PwmPinB); impl_pin!(PIN_8, PWM_CH4, PwmPinA); impl_pin!(PIN_9, PWM_CH4, PwmPinB); impl_pin!(PIN_10, PWM_CH5, PwmPinA); impl_pin!(PIN_11, PWM_CH5, PwmPinB); impl_pin!(PIN_12, PWM_CH6, PwmPinA); impl_pin!(PIN_13, PWM_CH6, PwmPinB); impl_pin!(PIN_14, PWM_CH7, PwmPinA); impl_pin!(PIN_15, PWM_CH7, PwmPinB); impl_pin!(PIN_16, PWM_CH0, PwmPinA); impl_pin!(PIN_17, PWM_CH0, PwmPinB); impl_pin!(PIN_18, PWM_CH1, PwmPinA); impl_pin!(PIN_19, PWM_CH1, PwmPinB); impl_pin!(PIN_20, PWM_CH2, PwmPinA); impl_pin!(PIN_21, PWM_CH2, PwmPinB); impl_pin!(PIN_22, PWM_CH3, PwmPinA); impl_pin!(PIN_23, PWM_CH3, PwmPinB); impl_pin!(PIN_24, PWM_CH4, PwmPinA); impl_pin!(PIN_25, PWM_CH4, PwmPinB); impl_pin!(PIN_26, PWM_CH5, PwmPinA); impl_pin!(PIN_27, PWM_CH5, PwmPinB); impl_pin!(PIN_28, PWM_CH6, PwmPinA); impl_pin!(PIN_29, PWM_CH6, PwmPinB);