add tick timer and re-factor for app vs interface

2025-08-16 19:37:31 -06:00 · 2025-08-16 19:37:31 -06:00 · 1a714bd907
commit 1a714bd907
parent 51af5c3343
8 changed files with 164 additions and 27 deletions
--- a/ch32v-insert-coin/src/insert_coin/insert_coin.rs
+++ b/ch32v-insert-coin/src/insert_coin/insert_coin.rs
@ -4,9 +4,15 @@ use ch32_hal::timer::simple_pwm::SimplePwm;
 use ch32_hal::timer::Channel;
 use ch32_hal::delay::Delay;
-use crate::insert_coin::services::{DacService, LedService, Service, ServiceData};
+use crate::insert_coin::services::{DacService, LedService, TickService, TickServiceData};
 // static mut led0_index: usize = 0;
 // static LED0: [u8; 8] = [0u8, 25u8, 50u8, 75u8, 100u8, 75u8, 50u8, 25u8];
 // static mut LED1_INDEX: usize = 0;
 // static LED1_DCS: [u8; 5] = [0u8, 25u8, 50u8, 75u8, 100u8];
 pub struct SimplePwmCore<'d, T:  GeneralInstance16bit> {
    pwm: core::cell::RefCell<SimplePwm<'d, T>>,
 }
@ -43,7 +49,7 @@ impl<'d, T: GeneralInstance16bit> SimplePwmCore<'d, T> {
 pub struct CoreConfig {
-    tick_rate_hz: usize,
+    pub tick_rate_hz: usize,
 }
 impl CoreConfig {
    pub fn new(tick_rate_hz: usize) -> Self {
@ -56,14 +62,15 @@ impl CoreConfig {
 #[derive(Default)]
 struct Core {
    tick: usize,
    active: bool,
 }
 pub struct InsertCoin<'a, T: GeneralInstance16bit> {
    core: Core,
-    config: CoreConfig,
+    pub config: CoreConfig,
    pwm_core: SimplePwmCore<'a, T>,
-    led0: LedService,
+    pub led0: LedService,
-    led1: LedService,
+    pub led1: LedService,
    // led2: LedService,
    dac: DacService<'a>,
@ -77,20 +84,20 @@ impl<'a, T: GeneralInstance16bit> InsertCoin<'a, T> {
        // LED0 servicer setup
        let led0_blink_rate_hz = 9; 
        let led0_tick_per_service = (config.tick_rate_hz/(led0_blink_rate_hz * 2));
-        let led0_service_data = ServiceData::new(led0_tick_per_service);
+        let led0_service_data = TickServiceData::new(led0_tick_per_service);
        let led0 = LedService::new(ch32_hal::timer::Channel::Ch3, led0_service_data);
        // LED1 servicer setup
        let led1_blink_rate_hz = 3; 
        let led1_tick_per_service = (config.tick_rate_hz/(led1_blink_rate_hz * 2));
-        let led1_service_data = ServiceData::new(led1_tick_per_service);
+        let led1_service_data = TickServiceData::new(led1_tick_per_service);
        let led1 = LedService::new(ch32_hal::timer::Channel::Ch1, led1_service_data);
        // DAC servicer setup
        let dac_sample_rate_hz = 16000;
        let dac_tick_per_service = (config.tick_rate_hz/(dac_sample_rate_hz));
-        let dac_service_data = ServiceData::new(dac_tick_per_service);
+        let dac_service_data = TickServiceData::new(dac_tick_per_service);
        let dac = DacService::new(ch32_hal::timer::Channel::Ch4, dac_service_data);
        let data = include_bytes!("../../../../dpcm-encoder-decoder/sweep_dpcm_u4.raw");
        dac.load_data(data);
@ -111,6 +118,34 @@ impl<'a, T: GeneralInstance16bit> InsertCoin<'a, T> {
        }
    }
    /// takes self reference and runs
    pub fn service(&mut self) {
        if self.is_active() {   
            self.led0.tick();
            self.led1.tick();
            self.dac.tick();
            if self.led0.need_service() {
                self.pwm_core.write_amplitude(self.led0.channel, self.led0.amplitude);
                self.led0.service();
            }
            if self.led1.need_service() {
                self.pwm_core.write_amplitude(self.led1.channel, self.led1.amplitude);
                self.led1.service();
            }
            if self.dac.need_service() {
                self.dac.service();
                // TODO: adpcm-pwm-dac:e4c811653781e69e40b63fd27a8c1e20
                self.pwm_core.write_amplitude(self.dac.channel, self.dac.get_amplitude() as u8);
            }
        }
    }
    /// consumes self and runs
    pub fn run(mut self) -> ! {
        let mut delay = Delay;
@ -162,4 +197,12 @@ impl<'a, T: GeneralInstance16bit> InsertCoin<'a, T> {
            delay.delay_us(tick_interval_us as u32);
        }
    }
    pub fn is_active(&self) -> bool {
        self.core.active    
    }
    pub fn set_active(&mut self, active: bool) {
        self.core.active = active;
    }
 }
--- a/ch32v-insert-coin/src/insert_coin/mod.rs
+++ b/ch32v-insert-coin/src/insert_coin/mod.rs
@ -2,4 +2,7 @@ mod insert_coin;
 mod services;
 use services::LedService;
 pub use services::TickTimerService;
 pub use services::{TickService, TickServiceData};
 pub use insert_coin::{InsertCoin, CoreConfig, SimplePwmCore};
--- a/ch32v-insert-coin/src/insert_coin/services/dac.rs
+++ b/ch32v-insert-coin/src/insert_coin/services/dac.rs
@ -1,18 +1,18 @@
-use crate::insert_coin::services::{ServiceData, Service};
+use crate::insert_coin::services::{TickServiceData, TickService};
 use adpcm_pwm_dac::{dac::{DpcmDac, DpcmDecoder}, interface::DacInterface};
 use ch32_hal::timer::Channel;
 pub struct DacService<'a> {
-    service_data: core::cell::RefCell<ServiceData>,
+    service_data: core::cell::RefCell<TickServiceData>,
    dpcm_decoder: core::cell::RefCell<DpcmDecoder<'a>>,
    amplitude: core::cell::RefCell<usize>,
    pub channel: Channel,
 }
 impl<'a> DacService<'a> {
-    pub fn new(channel: Channel, service_data: ServiceData) -> Self {
+    pub fn new(channel: Channel, service_data: TickServiceData) -> Self {
        Self {
            service_data: core::cell::RefCell::new(service_data),
            dpcm_decoder: core::cell::RefCell::new(DpcmDecoder::new()),
@ -33,7 +33,7 @@ impl<'a> DacService<'a> {
    }
 }
-impl<'a> Service for DacService<'a> {
+impl<'a> TickService for DacService<'a> {
    fn tick(&self) {
        let mut tc = self.service_data.borrow_mut();
        tc.ticks_remaining = tc.ticks_remaining.saturating_sub(1);
--- a/ch32v-insert-coin/src/insert_coin/services/led.rs
+++ b/ch32v-insert-coin/src/insert_coin/services/led.rs
@ -1,15 +1,15 @@
 use ch32_hal::timer::Channel;
-use crate::insert_coin::services::{ServiceData, Service};
+use crate::insert_coin::services::{TickServiceData, TickService};
 pub struct LedService {
-    service_data: core::cell::RefCell<ServiceData>,
+    service_data: core::cell::RefCell<TickServiceData>,
    pub channel: Channel,
    pub amplitude: u8,
 }
 impl LedService {
-    pub fn new(channel: Channel, service_data: ServiceData) -> Self {
+    pub fn new(channel: Channel, service_data: TickServiceData) -> Self {
        Self {
            service_data: core::cell::RefCell::new(service_data),
            channel,
@ -23,7 +23,7 @@ impl LedService {
 }
-impl Service for LedService {
+impl TickService for LedService {
    fn tick(&self) {
        let mut tc = self.service_data.borrow_mut();
        tc.ticks_remaining = tc.ticks_remaining.saturating_sub(1);
--- a/ch32v-insert-coin/src/insert_coin/services/mod.rs
+++ b/ch32v-insert-coin/src/insert_coin/services/mod.rs
@ -1,8 +1,11 @@
 mod services;
-pub use services::{Service, ServiceData};
+pub use services::{TickService, TickServiceData};
 mod led;
 pub use led::LedService;
 mod dac;
 pub use dac::DacService;
 mod tick_timer;
 pub use tick_timer::TickTimerService;
--- a/ch32v-insert-coin/src/insert_coin/services/services.rs
+++ b/ch32v-insert-coin/src/insert_coin/services/services.rs
@ -1,9 +1,9 @@
-pub struct ServiceData {
+pub struct TickServiceData {
    pub ticks_per_service: usize,
    pub ticks_remaining: usize,
 }
-impl ServiceData {
+impl TickServiceData {
    pub fn new(ticks_per_service: usize) -> Self {
        Self {
            ticks_per_service,
@ -12,7 +12,7 @@ impl ServiceData {
    }
 }
-pub trait Service {
+pub trait TickService {
    /// indicate to the service that a tick has occurred
    fn tick(&self);
--- a/ch32v-insert-coin/src/insert_coin/services/tick_timer.rs
+++ b/ch32v-insert-coin/src/insert_coin/services/tick_timer.rs
@ -0,0 +1,34 @@
 use ch32_hal::timer::Channel;
 use crate::insert_coin::services::{TickServiceData, TickService};
 pub struct TickTimerService {
    service_data: core::cell::RefCell<TickServiceData>,
 }
 impl TickTimerService {
    pub fn new(service_data: TickServiceData) -> Self {
        Self {
            service_data: core::cell::RefCell::new(service_data),
        }
    }   
 }
 impl TickService for TickTimerService {
    fn tick(&self) {
        let mut tc = self.service_data.borrow_mut();
        tc.ticks_remaining = tc.ticks_remaining.saturating_sub(1);
    }
    fn need_service(&self) -> bool {
        self.service_data.borrow().ticks_remaining == 0
    }
    fn service(&self) {
        let mut tc = self.service_data.borrow_mut();
        tc.ticks_remaining = tc.ticks_per_service;
    }
 }
--- a/ch32v-insert-coin/src/main.rs
+++ b/ch32v-insert-coin/src/main.rs
@ -84,14 +84,18 @@ static mut IRQ1_FLAG: bool = false;
 //     }
 // }
 // TODO: remove
 use insert_coin::{TickService, TickServiceData};
 use insert_coin::TickTimerService;
 #[qingke_rt::entry]
 fn main() -> ! {
    let mut config = hal::Config::default();
    config.rcc = hal::rcc::Config::SYSCLK_FREQ_48MHZ_HSE;
    let p = hal::init(config);
-    // button 1 setup
+    // coin button input setup
-    // let b1 = Input::new(p.PA2, Pull::Up);
+    let b1 = Input::new(p.PD4, Pull::Up);
    // p.EXTI4
    // let ei = hal::exti::ExtiInput::new(p.PD4, p.EXTI4, Pull::Up);
@ -133,12 +137,62 @@ fn main() -> ! {
    let pwm_core = SimplePwmCore::new(pwm);
-    let app = InsertCoin::new(config, pwm_core);
+    let mut interfaces = InsertCoin::new(config, pwm_core);
-
+    interfaces.set_active(true);
    // insert_coin.init();
-    app.run();
+    let mut led0_index = 0;
    let led0_dcs = [0u8, 25u8, 50u8, 75u8, 100u8, 75u8, 50u8, 25u8];
    let mut led1_index = 0;
    let led1_dcs = [0u8, 25u8, 50u8, 75u8, 100u8];
    // tick timer 0
    let tt0_fire_rate_hz = 9; 
    let tt0_tick_per_service = (interfaces.config.tick_rate_hz/(tt0_fire_rate_hz * 2));
    let tt0_service_data = TickServiceData::new(tt0_tick_per_service);
    let tt0 = TickTimerService::new(tt0_service_data);
    // tick timer 1
    let tt1_fire_rate_hz = 3; 
    let tt1_tick_per_service = (interfaces.config.tick_rate_hz/(tt1_fire_rate_hz * 2));
    let tt1_service_data = TickServiceData::new(tt1_tick_per_service);
    let tt1 = TickTimerService::new(tt1_service_data);
    let mut delay = Delay;
    let tick_interval_us = 1000000/interfaces.config.tick_rate_hz;
    loop {
        tt0.tick();
        tt1.tick();
        // TODO: timer
        // if app.led0.need_service() {
        if tt0.need_service() {
            interfaces.led0.set_amplitude(led0_dcs[led0_index]);
            led0_index += 1;
            if led0_index > led0_dcs.len() - 1 {
                led0_index = 0;
            }
            tt0.service();
        }
        // }
        // if app.led1.need_service() {
        if tt1.need_service() {
            interfaces.led1.set_amplitude(led1_dcs[led1_index]);
            led1_index += 1;
            if led1_index > led1_dcs.len() - 1 {
                led1_index = 0;
            }
            tt1.service()
        }
        interfaces.service();
        delay.delay_us(tick_interval_us as u32);
    }
    // // DAC servicer setup
    // let mut pwm_dac_interface = SimplePwmDacHandle{pin: core::cell::RefCell::new(pwm), ch: dac_ch};
    // let mut dac = DpcmDac::new(pwm_dac_interface);