#[doc = r"Enumeration of all the interrupts."]
#[derive(Copy, Clone, Debug, PartialEq, Eq)]
#[repr(u16)]
pub enum Interrupt {
#[doc = "0 - WIFI_MAC"]
WIFI_MAC = 0,
#[doc = "1 - WIFI_MAC_NMI"]
WIFI_MAC_NMI = 1,
#[doc = "2 - WIFI_PWR"]
WIFI_PWR = 2,
#[doc = "3 - WIFI_BB"]
WIFI_BB = 3,
#[doc = "4 - BT_MAC"]
BT_MAC = 4,
#[doc = "5 - BT_BB"]
BT_BB = 5,
#[doc = "6 - BT_BB_NMI"]
BT_BB_NMI = 6,
#[doc = "7 - LP_TIMER"]
LP_TIMER = 7,
#[doc = "8 - COEX"]
COEX = 8,
#[doc = "9 - BLE_TIMER"]
BLE_TIMER = 9,
#[doc = "10 - BLE_SEC"]
BLE_SEC = 10,
#[doc = "11 - I2C_MASTER"]
I2C_MASTER = 11,
#[doc = "12 - ZB_MAC"]
ZB_MAC = 12,
#[doc = "13 - PMU"]
PMU = 13,
#[doc = "14 - EFUSE"]
EFUSE = 14,
#[doc = "15 - LP_RTC_TIMER"]
LP_RTC_TIMER = 15,
#[doc = "16 - LP_UART"]
LP_UART = 16,
#[doc = "17 - LP_I2C"]
LP_I2C = 17,
#[doc = "18 - LP_WDT"]
LP_WDT = 18,
#[doc = "19 - LP_PERI_TIMEOUT"]
LP_PERI_TIMEOUT = 19,
#[doc = "20 - LP_APM_M0"]
LP_APM_M0 = 20,
#[doc = "21 - LP_APM_M1"]
LP_APM_M1 = 21,
#[doc = "22 - FROM_CPU_INTR0"]
FROM_CPU_INTR0 = 22,
#[doc = "23 - FROM_CPU_INTR1"]
FROM_CPU_INTR1 = 23,
#[doc = "24 - FROM_CPU_INTR2"]
FROM_CPU_INTR2 = 24,
#[doc = "25 - FROM_CPU_INTR3"]
FROM_CPU_INTR3 = 25,
#[doc = "26 - ASSIST_DEBUG"]
ASSIST_DEBUG = 26,
#[doc = "27 - TRACE"]
TRACE = 27,
#[doc = "28 - CACHE"]
CACHE = 28,
#[doc = "29 - CPU_PERI_TIMEOUT"]
CPU_PERI_TIMEOUT = 29,
#[doc = "30 - GPIO"]
GPIO = 30,
#[doc = "31 - GPIO_NMI"]
GPIO_NMI = 31,
#[doc = "32 - PAU"]
PAU = 32,
#[doc = "33 - HP_PERI_TIMEOUT"]
HP_PERI_TIMEOUT = 33,
#[doc = "34 - MODEM_PERI_TIMEOUT"]
MODEM_PERI_TIMEOUT = 34,
#[doc = "35 - HP_APM_M0"]
HP_APM_M0 = 35,
#[doc = "36 - HP_APM_M1"]
HP_APM_M1 = 36,
#[doc = "37 - HP_APM_M2"]
HP_APM_M2 = 37,
#[doc = "38 - HP_APM_M3"]
HP_APM_M3 = 38,
#[doc = "39 - LP_APM0"]
LP_APM0 = 39,
#[doc = "40 - MSPI"]
MSPI = 40,
#[doc = "41 - I2S0"]
I2S0 = 41,
#[doc = "42 - UHCI0"]
UHCI0 = 42,
#[doc = "43 - UART0"]
UART0 = 43,
#[doc = "44 - UART1"]
UART1 = 44,
#[doc = "45 - LEDC"]
LEDC = 45,
#[doc = "46 - TWAI0"]
TWAI0 = 46,
#[doc = "47 - TWAI1"]
TWAI1 = 47,
#[doc = "48 - USB_DEVICE"]
USB_DEVICE = 48,
#[doc = "49 - RMT"]
RMT = 49,
#[doc = "50 - I2C_EXT0"]
I2C_EXT0 = 50,
#[doc = "51 - TG0_T0_LEVEL"]
TG0_T0_LEVEL = 51,
#[doc = "52 - TG0_T1_LEVEL"]
TG0_T1_LEVEL = 52,
#[doc = "53 - TG0_WDT_LEVEL"]
TG0_WDT_LEVEL = 53,
#[doc = "54 - TG1_T0_LEVEL"]
TG1_T0_LEVEL = 54,
#[doc = "55 - TG1_T1_LEVEL"]
TG1_T1_LEVEL = 55,
#[doc = "56 - TG1_WDT_LEVEL"]
TG1_WDT_LEVEL = 56,
#[doc = "57 - SYSTIMER_TARGET0"]
SYSTIMER_TARGET0 = 57,
#[doc = "58 - SYSTIMER_TARGET1"]
SYSTIMER_TARGET1 = 58,
#[doc = "59 - SYSTIMER_TARGET2"]
SYSTIMER_TARGET2 = 59,
#[doc = "60 - APB_SARADC"]
APB_SARADC = 60,
#[doc = "61 - MCPWM0"]
MCPWM0 = 61,
#[doc = "62 - PCNT"]
PCNT = 62,
#[doc = "63 - PARL_IO"]
PARL_IO = 63,
#[doc = "64 - SLC0"]
SLC0 = 64,
#[doc = "65 - SLC1"]
SLC1 = 65,
#[doc = "66 - DMA_IN_CH0"]
DMA_IN_CH0 = 66,
#[doc = "67 - DMA_IN_CH1"]
DMA_IN_CH1 = 67,
#[doc = "68 - DMA_IN_CH2"]
DMA_IN_CH2 = 68,
#[doc = "69 - DMA_OUT_CH0"]
DMA_OUT_CH0 = 69,
#[doc = "70 - DMA_OUT_CH1"]
DMA_OUT_CH1 = 70,
#[doc = "71 - DMA_OUT_CH2"]
DMA_OUT_CH2 = 71,
#[doc = "72 - SPI2"]
SPI2 = 72,
#[doc = "73 - AES"]
AES = 73,
#[doc = "74 - SHA"]
SHA = 74,
#[doc = "75 - RSA"]
RSA = 75,
#[doc = "76 - ECC"]
ECC = 76,
}
#[doc = r" TryFromInterruptError"]
#[derive(Debug, Copy, Clone)]
pub struct TryFromInterruptError(());
impl Interrupt {
#[doc = r" Attempt to convert a given value into an `Interrupt`"]
#[inline]
pub fn try_from(value: u8) -> Result<Self, TryFromInterruptError> {
match value {
0 => Ok(Interrupt::WIFI_MAC),
1 => Ok(Interrupt::WIFI_MAC_NMI),
2 => Ok(Interrupt::WIFI_PWR),
3 => Ok(Interrupt::WIFI_BB),
4 => Ok(Interrupt::BT_MAC),
5 => Ok(Interrupt::BT_BB),
6 => Ok(Interrupt::BT_BB_NMI),
7 => Ok(Interrupt::LP_TIMER),
8 => Ok(Interrupt::COEX),
9 => Ok(Interrupt::BLE_TIMER),
10 => Ok(Interrupt::BLE_SEC),
11 => Ok(Interrupt::I2C_MASTER),
12 => Ok(Interrupt::ZB_MAC),
13 => Ok(Interrupt::PMU),
14 => Ok(Interrupt::EFUSE),
15 => Ok(Interrupt::LP_RTC_TIMER),
16 => Ok(Interrupt::LP_UART),
17 => Ok(Interrupt::LP_I2C),
18 => Ok(Interrupt::LP_WDT),
19 => Ok(Interrupt::LP_PERI_TIMEOUT),
20 => Ok(Interrupt::LP_APM_M0),
21 => Ok(Interrupt::LP_APM_M1),
22 => Ok(Interrupt::FROM_CPU_INTR0),
23 => Ok(Interrupt::FROM_CPU_INTR1),
24 => Ok(Interrupt::FROM_CPU_INTR2),
25 => Ok(Interrupt::FROM_CPU_INTR3),
26 => Ok(Interrupt::ASSIST_DEBUG),
27 => Ok(Interrupt::TRACE),
28 => Ok(Interrupt::CACHE),
29 => Ok(Interrupt::CPU_PERI_TIMEOUT),
30 => Ok(Interrupt::GPIO),
31 => Ok(Interrupt::GPIO_NMI),
32 => Ok(Interrupt::PAU),
33 => Ok(Interrupt::HP_PERI_TIMEOUT),
34 => Ok(Interrupt::MODEM_PERI_TIMEOUT),
35 => Ok(Interrupt::HP_APM_M0),
36 => Ok(Interrupt::HP_APM_M1),
37 => Ok(Interrupt::HP_APM_M2),
38 => Ok(Interrupt::HP_APM_M3),
39 => Ok(Interrupt::LP_APM0),
40 => Ok(Interrupt::MSPI),
41 => Ok(Interrupt::I2S0),
42 => Ok(Interrupt::UHCI0),
43 => Ok(Interrupt::UART0),
44 => Ok(Interrupt::UART1),
45 => Ok(Interrupt::LEDC),
46 => Ok(Interrupt::TWAI0),
47 => Ok(Interrupt::TWAI1),
48 => Ok(Interrupt::USB_DEVICE),
49 => Ok(Interrupt::RMT),
50 => Ok(Interrupt::I2C_EXT0),
51 => Ok(Interrupt::TG0_T0_LEVEL),
52 => Ok(Interrupt::TG0_T1_LEVEL),
53 => Ok(Interrupt::TG0_WDT_LEVEL),
54 => Ok(Interrupt::TG1_T0_LEVEL),
55 => Ok(Interrupt::TG1_T1_LEVEL),
56 => Ok(Interrupt::TG1_WDT_LEVEL),
57 => Ok(Interrupt::SYSTIMER_TARGET0),
58 => Ok(Interrupt::SYSTIMER_TARGET1),
59 => Ok(Interrupt::SYSTIMER_TARGET2),
60 => Ok(Interrupt::APB_SARADC),
61 => Ok(Interrupt::MCPWM0),
62 => Ok(Interrupt::PCNT),
63 => Ok(Interrupt::PARL_IO),
64 => Ok(Interrupt::SLC0),
65 => Ok(Interrupt::SLC1),
66 => Ok(Interrupt::DMA_IN_CH0),
67 => Ok(Interrupt::DMA_IN_CH1),
68 => Ok(Interrupt::DMA_IN_CH2),
69 => Ok(Interrupt::DMA_OUT_CH0),
70 => Ok(Interrupt::DMA_OUT_CH1),
71 => Ok(Interrupt::DMA_OUT_CH2),
72 => Ok(Interrupt::SPI2),
73 => Ok(Interrupt::AES),
74 => Ok(Interrupt::SHA),
75 => Ok(Interrupt::RSA),
76 => Ok(Interrupt::ECC),
_ => Err(TryFromInterruptError(())),
}
}
}
#[cfg(feature = "rt")]
#[macro_export]
#[doc = r" Assigns a handler to an interrupt"]
#[doc = r""]
#[doc = r" This macro takes two arguments: the name of an interrupt and the path to the"]
#[doc = r" function that will be used as the handler of that interrupt. That function"]
#[doc = r" must have signature `fn()`."]
#[doc = r""]
#[doc = r" Optionally, a third argument may be used to declare interrupt local data."]
#[doc = r" The handler will have exclusive access to these *local* variables on each"]
#[doc = r" invocation. If the third argument is used then the signature of the handler"]
#[doc = r" function must be `fn(&mut $NAME::Locals)` where `$NAME` is the first argument"]
#[doc = r" passed to the macro."]
#[doc = r""]
#[doc = r" # Example"]
#[doc = r""]
#[doc = r" ``` ignore"]
#[doc = r" interrupt!(TIM2, periodic);"]
#[doc = r""]
#[doc = r" fn periodic() {"]
#[doc = r#" print!(".");"#]
#[doc = r" }"]
#[doc = r""]
#[doc = r" interrupt!(TIM3, tick, locals: {"]
#[doc = r" tick: bool = false;"]
#[doc = r" });"]
#[doc = r""]
#[doc = r" fn tick(locals: &mut TIM3::Locals) {"]
#[doc = r" locals.tick = !locals.tick;"]
#[doc = r""]
#[doc = r" if locals.tick {"]
#[doc = r#" println!("Tick");"#]
#[doc = r" } else {"]
#[doc = r#" println!("Tock");"#]
#[doc = r" }"]
#[doc = r" }"]
#[doc = r" ```"]
macro_rules ! interrupt { ($ NAME : ident , $ path : path , locals : { $ ($ lvar : ident : $ lty : ty = $ lval : expr ;) * }) => { # [allow (non_snake_case)] mod $ NAME { pub struct Locals { $ (pub $ lvar : $ lty ,) * } } # [allow (non_snake_case)] # [no_mangle] pub extern "C" fn $ NAME () { let _ = $ crate :: interrupt :: Interrupt :: $ NAME ; static mut LOCALS : self :: $ NAME :: Locals = self :: $ NAME :: Locals { $ ($ lvar : $ lval ,) * } ; let f : fn (& mut self :: $ NAME :: Locals) = $ path ; f (unsafe { & mut LOCALS }) ; } } ; ($ NAME : ident , $ path : path) => { # [allow (non_snake_case)] # [no_mangle] pub extern "C" fn $ NAME () { let _ = $ crate :: interrupt :: Interrupt :: $ NAME ; let f : fn () = $ path ; f () ; } } }