#![no_std] #![no_main] #![feature(type_alias_impl_trait)] use defmt::{assert, *}; use embassy_executor::executor::Spawner; use embassy_rp::gpio::{Flex, Input, Level, Output, OutputOpenDrain, Pull}; use embassy_rp::Peripherals; use {defmt_rtt as _, panic_probe as _}; #[embassy_executor::main] async fn main(_spawner: Spawner, p: Peripherals) { info!("Hello World!"); let (mut a, mut b) = (p.PIN_0, p.PIN_1); // Test initial output { let b = Input::new(&mut b, Pull::None); { let _a = Output::new(&mut a, Level::Low); delay(); assert!(b.is_low()); } { let _a = Output::new(&mut a, Level::High); delay(); assert!(b.is_high()); } } // Test input no pull { let b = Input::new(&mut b, Pull::None); // no pull, the status is undefined let mut a = Output::new(&mut a, Level::Low); delay(); assert!(b.is_low()); a.set_high(); delay(); assert!(b.is_high()); } // Test input pulldown { let b = Input::new(&mut b, Pull::Down); delay(); assert!(b.is_low()); let mut a = Output::new(&mut a, Level::Low); delay(); assert!(b.is_low()); a.set_high(); delay(); assert!(b.is_high()); } // Test input pullup { let b = Input::new(&mut b, Pull::Up); delay(); assert!(b.is_high()); let mut a = Output::new(&mut a, Level::Low); delay(); assert!(b.is_low()); a.set_high(); delay(); assert!(b.is_high()); } // OUTPUT OPEN DRAIN { let mut b = OutputOpenDrain::new(&mut b, Level::High); let mut a = Flex::new(&mut a); a.set_as_input(); // When an OutputOpenDrain is high, it doesn't drive the pin. a.set_pull(Pull::Up); delay(); assert!(a.is_high()); a.set_pull(Pull::Down); delay(); assert!(a.is_low()); b.set_low(); // When an OutputOpenDrain is low, it drives the pin low. a.set_pull(Pull::Up); delay(); assert!(a.is_low()); a.set_pull(Pull::Down); delay(); assert!(a.is_low()); b.set_high(); a.set_pull(Pull::Up); delay(); assert!(a.is_high()); a.set_pull(Pull::Down); delay(); assert!(a.is_low()); } // FLEX // Test initial output { //Flex pin configured as input let mut b = Flex::new(&mut b); b.set_as_input(); { //Flex pin configured as output let mut a = Flex::new(&mut a); //Flex pin configured as output a.set_low(); // Pin state must be set before configuring the pin, thus we avoid unknown state a.set_as_output(); delay(); assert!(b.is_low()); } { //Flex pin configured as output let mut a = Flex::new(&mut a); a.set_high(); a.set_as_output(); delay(); assert!(b.is_high()); } } // Test input no pull { let mut b = Flex::new(&mut b); b.set_as_input(); // no pull by default. let mut a = Flex::new(&mut a); a.set_low(); a.set_as_output(); delay(); assert!(b.is_low()); a.set_high(); delay(); assert!(b.is_high()); } // Test input pulldown { let mut b = Flex::new(&mut b); b.set_as_input(); b.set_pull(Pull::Down); delay(); assert!(b.is_low()); let mut a = Flex::new(&mut a); a.set_low(); a.set_as_output(); delay(); assert!(b.is_low()); a.set_high(); delay(); assert!(b.is_high()); } // Test input pullup { let mut b = Flex::new(&mut b); b.set_as_input(); b.set_pull(Pull::Up); delay(); assert!(b.is_high()); let mut a = Flex::new(&mut a); a.set_high(); a.set_as_output(); delay(); assert!(b.is_high()); a.set_low(); delay(); assert!(b.is_low()); } info!("Test OK"); cortex_m::asm::bkpt(); } fn delay() { cortex_m::asm::delay(10000); }