thermostat/src/channels.rs

use stm32f4xx_hal::hal::digital::v2::OutputPin;
use smoltcp::time::Instant;
use crate::{
    ad7172,
    channel::{Channel, Channel0, Channel1},
    channel_state::ChannelState,
    pins,
};

pub const CHANNELS: usize = 2;

pub struct Channels {
    pub channel0: Channel<Channel0>,
    pub channel1: Channel<Channel1>,
    pub adc: ad7172::Adc<pins::AdcSpi, pins::AdcNss>,
    pub pwm: pins::PwmPins,
}

impl Channels {
    pub fn new(pins: pins::Pins) -> Self {
        let channel0 = Channel::new(pins.channel0);
        let channel1 = Channel::new(pins.channel1);
        let pwm = pins.pwm;

        let mut adc = ad7172::Adc::new(pins.adc_spi, pins.adc_nss).unwrap();
        // Feature not used
        adc.set_sync_enable(false).unwrap();
        // Setup channels
        adc.setup_channel(0, ad7172::Input::Ain0, ad7172::Input::Ain1).unwrap();
        adc.setup_channel(1, ad7172::Input::Ain2, ad7172::Input::Ain3).unwrap();
        adc.calibrate_offset().unwrap();

        Channels { channel0, channel1, adc, pwm }
    }

    pub fn channel_state<I: Into<usize>>(&mut self, channel: I) -> &mut ChannelState {
        match channel.into() {
            0 => &mut self.channel0.state,
            1 => &mut self.channel1.state,
            _ => unreachable!(),
        }
    }

    /// ADC input + PID processing
    pub fn poll_adc(&mut self, instant: Instant) -> Option<u8> {
        self.adc.data_ready().unwrap().map(|channel| {
            let data = self.adc.read_data().unwrap();

            let dac_value = {
                let state = self.channel_state(channel);
                let pid_output = state.update_pid(instant, data);

                if state.pid_engaged {
                    Some(pid_output)
                } else {
                    None
                }
            };
            if let Some(dac_value) = dac_value {
                // Forward PID output to i_set DAC
                self.set_dac(channel.into(), dac_value);
            }

            channel
        })
    }

    /// i_set DAC
    pub fn set_dac(&mut self, channel: usize, duty: u32) {
        match channel {
            0 => {
                self.channel0.dac.set(duty).unwrap();
                self.channel0.state.dac_value = duty;
                self.channel0.shdn.set_high().unwrap();
            }
            1 => {
                self.channel1.dac.set(duty).unwrap();
                self.channel1.state.dac_value = duty;
                self.channel1.shdn.set_high().unwrap();
            }
            _ => unreachable!(),
        }
    }

    pub fn read_dac_loopback(&mut self, channel: usize) -> u16 {
        match channel {
            0 => self.channel0.dac_loopback.convert(
                &self.channel0.dac_loopback_pin,
                stm32f4xx_hal::adc::config::SampleTime::Cycles_480
            ),
            1 => self.channel1.dac_loopback.convert(
                &self.channel1.dac_loopback_pin,
                stm32f4xx_hal::adc::config::SampleTime::Cycles_480
            ),
            _ => unreachable!(),
        }
    }
}
refactor into Channels::poll_adc() 2020-05-13 06:04:55 +08:00			`use stm32f4xx_hal::hal::digital::v2::OutputPin;`
			`use smoltcp::time::Instant;`
main: refactor into Channel/Channels 2020-05-13 05:16:57 +08:00			`use crate::{`
			`ad7172,`
			`channel::{Channel, Channel0, Channel1},`
refactor into Channels::poll_adc() 2020-05-13 06:04:55 +08:00			`channel_state::ChannelState,`
main: refactor into Channel/Channels 2020-05-13 05:16:57 +08:00			`pins,`
			`};`

refactor into Channels::poll_adc() 2020-05-13 06:04:55 +08:00			`pub const CHANNELS: usize = 2;`

main: refactor into Channel/Channels 2020-05-13 05:16:57 +08:00			`pub struct Channels {`
			`pub channel0: Channel<Channel0>,`
			`pub channel1: Channel<Channel1>,`
			`pub adc: ad7172::Adc<pins::AdcSpi, pins::AdcNss>,`
			`pub pwm: pins::PwmPins,`
			`}`

			`impl Channels {`
			`pub fn new(pins: pins::Pins) -> Self {`
			`let channel0 = Channel::new(pins.channel0);`
			`let channel1 = Channel::new(pins.channel1);`
			`let pwm = pins.pwm;`

			`let mut adc = ad7172::Adc::new(pins.adc_spi, pins.adc_nss).unwrap();`
			`// Feature not used`
			`adc.set_sync_enable(false).unwrap();`
			`// Setup channels`
			`adc.setup_channel(0, ad7172::Input::Ain0, ad7172::Input::Ain1).unwrap();`
			`adc.setup_channel(1, ad7172::Input::Ain2, ad7172::Input::Ain3).unwrap();`
			`adc.calibrate_offset().unwrap();`

			`Channels { channel0, channel1, adc, pwm }`
			`}`
refactor into Channels::poll_adc() 2020-05-13 06:04:55 +08:00
			`pub fn channel_state<I: Into<usize>>(&mut self, channel: I) -> &mut ChannelState {`
			`match channel.into() {`
			`0 => &mut self.channel0.state,`
			`1 => &mut self.channel1.state,`
			`_ => unreachable!(),`
			`}`
			`}`

			`/// ADC input + PID processing`
			`pub fn poll_adc(&mut self, instant: Instant) -> Option<u8> {`
			`self.adc.data_ready().unwrap().map(\|channel\| {`
			`let data = self.adc.read_data().unwrap();`

			`let dac_value = {`
			`let state = self.channel_state(channel);`
do not overwrite dac value when pid is disengaged 2020-05-14 04:11:25 +08:00			`let pid_output = state.update_pid(instant, data);`
refactor into Channels::poll_adc() 2020-05-13 06:04:55 +08:00
			`if state.pid_engaged {`
do not overwrite dac value when pid is disengaged 2020-05-14 04:11:25 +08:00			`Some(pid_output)`
refactor into Channels::poll_adc() 2020-05-13 06:04:55 +08:00			`} else {`
			`None`
			`}`
			`};`
			`if let Some(dac_value) = dac_value {`
			`// Forward PID output to i_set DAC`
channels: add set_dac() 2020-05-14 03:02:26 +08:00			`self.set_dac(channel.into(), dac_value);`
refactor into Channels::poll_adc() 2020-05-13 06:04:55 +08:00			`}`

			`channel`
			`})`
			`}`
add Channels::read_ref_adc() 2020-05-13 06:15:29 +08:00
channels: add set_dac() 2020-05-14 03:02:26 +08:00			`/// i_set DAC`
			`pub fn set_dac(&mut self, channel: usize, duty: u32) {`
			`match channel {`
			`0 => {`
			`self.channel0.dac.set(duty).unwrap();`
			`self.channel0.state.dac_value = duty;`
			`self.channel0.shdn.set_high().unwrap();`
			`}`
			`1 => {`
			`self.channel1.dac.set(duty).unwrap();`
			`self.channel1.state.dac_value = duty;`
			`self.channel1.shdn.set_high().unwrap();`
			`}`
			`_ => unreachable!(),`
			`}`
			`}`

rename ref_adc to dac_loopback 2020-05-17 01:36:00 +08:00			`pub fn read_dac_loopback(&mut self, channel: usize) -> u16 {`
add Channels::read_ref_adc() 2020-05-13 06:15:29 +08:00			`match channel {`
rename ref_adc to dac_loopback 2020-05-17 01:36:00 +08:00			`0 => self.channel0.dac_loopback.convert(`
			`&self.channel0.dac_loopback_pin,`
add Channels::read_ref_adc() 2020-05-13 06:15:29 +08:00			`stm32f4xx_hal::adc::config::SampleTime::Cycles_480`
			`),`
rename ref_adc to dac_loopback 2020-05-17 01:36:00 +08:00			`1 => self.channel1.dac_loopback.convert(`
			`&self.channel1.dac_loopback_pin,`
add Channels::read_ref_adc() 2020-05-13 06:15:29 +08:00			`stm32f4xx_hal::adc::config::SampleTime::Cycles_480`
			`),`
			`_ => unreachable!(),`
			`}`
			`}`
main: refactor into Channel/Channels 2020-05-13 05:16:57 +08:00			`}`