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Add dht11 example
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@ -45,6 +45,7 @@ panic-halt = "0.2.0"
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rp2040-boot2 = "0.2.0"
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rp2040-boot2 = "0.2.0"
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hd44780-driver = "0.4.0"
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hd44780-driver = "0.4.0"
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pio-proc = "0.1.0"
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pio-proc = "0.1.0"
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dht11 = "0.1.0"
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[features]
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[features]
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rt = ["rp2040-pac/rt"]
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rt = ["rp2040-pac/rt"]
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129
rp2040-hal/examples/dht11.rs
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129
rp2040-hal/examples/dht11.rs
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@ -0,0 +1,129 @@
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//! # GPIO 'Blinky' Example
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//!
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//! This application demonstrates how to control a GPIO pin on the RP2040.
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//!
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//! It may need to be adapted to your particular board layout and/or pin assignment.
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//!
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//! See the `Cargo.toml` file for Copyright and licence details.
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#![no_std]
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#![no_main]
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// The macro for our start-up function
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use cortex_m_rt::entry;
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// Ensure we halt the program on panic (if we don't mention this crate it won't
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// be linked)
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use panic_halt as _;
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// Alias for our HAL crate
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use rp2040_hal as hal;
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// A shorter alias for the Peripheral Access Crate, which provides low-level
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// register access
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use hal::pac;
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// Some traits we need
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use embedded_hal::digital::v2::InputPin;
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use embedded_hal::digital::v2::OutputPin;
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use embedded_time::fixed_point::FixedPoint;
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use hal::gpio::dynpin::DynPin;
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use hal::Clock;
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/// The linker will place this boot block at the start of our program image. We
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/// need this to help the ROM bootloader get our code up and running.
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#[link_section = ".boot2"]
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#[used]
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pub static BOOT2: [u8; 256] = rp2040_boot2::BOOT_LOADER_W25Q080;
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/// External high-speed crystal on the Raspberry Pi Pico board is 12 MHz. Adjust
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/// if your board has a different frequency
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const XTAL_FREQ_HZ: u32 = 12_000_000u32;
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use dht11::Dht11;
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struct InOutPin {
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inner: DynPin,
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}
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impl InputPin for InOutPin {
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type Error = rp2040_hal::gpio::Error;
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fn is_high(&self) -> Result<bool, <Self as embedded_hal::digital::v2::InputPin>::Error> {
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self.inner.is_high()
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}
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fn is_low(&self) -> Result<bool, <Self as embedded_hal::digital::v2::InputPin>::Error> {
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self.inner.is_low()
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}
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}
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impl OutputPin for InOutPin {
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type Error = rp2040_hal::gpio::Error;
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fn set_low(&mut self) -> Result<(), <Self as embedded_hal::digital::v2::OutputPin>::Error> {
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self.inner.into_readable_output();
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self.inner.set_low()
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}
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fn set_high(&mut self) -> Result<(), <Self as embedded_hal::digital::v2::OutputPin>::Error> {
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self.inner.into_pull_up_input();
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Ok(())
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}
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}
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/// Entry point to our bare-metal application.
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///
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/// The `#[entry]` macro ensures the Cortex-M start-up code calls this function
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/// as soon as all global variables are initialised.
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///
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/// The function configures the RP2040 peripherals, then toggles a GPIO pin in
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/// an infinite loop. If there is an LED connected to that pin, it will blink.
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#[entry]
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fn main() -> ! {
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// Grab our singleton objects
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let mut pac = pac::Peripherals::take().unwrap();
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let core = pac::CorePeripherals::take().unwrap();
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// Set up the watchdog driver - needed by the clock setup code
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let mut watchdog = hal::Watchdog::new(pac.WATCHDOG);
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// Configure the clocks
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let clocks = hal::clocks::init_clocks_and_plls(
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XTAL_FREQ_HZ,
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pac.XOSC,
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pac.CLOCKS,
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pac.PLL_SYS,
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pac.PLL_USB,
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&mut pac.RESETS,
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&mut watchdog,
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)
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.ok()
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.unwrap();
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// The single-cycle I/O block controls our GPIO pins
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let sio = hal::Sio::new(pac.SIO);
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// Set the pins to their default state
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let pins = hal::gpio::Pins::new(
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pac.IO_BANK0,
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pac.PADS_BANK0,
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sio.gpio_bank0,
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&mut pac.RESETS,
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);
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let mut delay = cortex_m::delay::Delay::new(core.SYST, clocks.system_clock.freq().integer());
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// Configure GPIO 25 as an output
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let pin = pins.gpio0.into_push_pull_output();
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let pin = InOutPin { inner: pin.into() };
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// Create an instance of the DHT11 device
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let mut dht11 = Dht11::new(pin);
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// Perform a sensor reading
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let _measurement = dht11.perform_measurement(&mut delay).unwrap();
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#[allow(clippy::empty_loop)]
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loop {
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// Empty loop
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}
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}
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// End of file
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