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- //! ADC interface circular DMA RX transfer test
- #![no_main]
- #![no_std]
- use panic_halt as _;
- use cortex_m::{asm, singleton};
- use cortex_m_rt::entry;
- use stm32f1xx_hal::{adc, dma::Half, pac, prelude::*};
- #[entry]
- fn main() -> ! {
- // Acquire peripherals
- let p = pac::Peripherals::take().unwrap();
- let mut flash = p.FLASH.constrain();
- let mut rcc = p.RCC.constrain();
- // Configure ADC clocks
- // Default value is the slowest possible ADC clock: PCLK2 / 8. Meanwhile ADC
- // clock is configurable. So its frequency may be tweaked to meet certain
- // practical needs. User specified value is be approximated using supported
- // prescaler values 2/4/6/8.
- let clocks = rcc.cfgr.adcclk(2.mhz()).freeze(&mut flash.acr);
- let dma_ch1 = p.DMA1.split(&mut rcc.ahb).1;
- // Setup ADC
- let adc1 = adc::Adc::adc1(p.ADC1, &mut rcc.apb2, clocks);
- // Setup GPIOA
- let mut gpioa = p.GPIOA.split(&mut rcc.apb2);
- // Configure pa0 as an analog input
- let adc_ch0 = gpioa.pa0.into_analog(&mut gpioa.crl);
- let adc_dma = adc1.with_dma(adc_ch0, dma_ch1);
- let buf = singleton!(: [[u16; 8]; 2] = [[0; 8]; 2]).unwrap();
- let mut circ_buffer = adc_dma.circ_read(buf);
- while circ_buffer.readable_half().unwrap() != Half::First {}
- let _first_half = circ_buffer.peek(|half, _| *half).unwrap();
- while circ_buffer.readable_half().unwrap() != Half::Second {}
- let _second_half = circ_buffer.peek(|half, _| *half).unwrap();
- let (_buf, adc_dma) = circ_buffer.stop();
- let (_adc1, _adc_ch0, _dma_ch1) = adc_dma.split();
- asm::bkpt();
- loop {}
- }
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