stm32ral 0.5.0

#![allow(non_snake_case, non_upper_case_globals)]
#![allow(non_camel_case_types)]
//! TIM12

use crate::{RWRegister, WORegister};
#[cfg(not(feature = "nosync"))]
use core::marker::PhantomData;

/// TIM12 control register 1
pub mod TIM12_CR1 {

    /// CEN
    pub mod CEN {
        /// Offset (0 bits)
        pub const offset: u16 = 0;
        /// Mask (1 bit: 1 << 0)
        pub const mask: u16 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// UDIS
    pub mod UDIS {
        /// Offset (1 bits)
        pub const offset: u16 = 1;
        /// Mask (1 bit: 1 << 1)
        pub const mask: u16 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// URS
    pub mod URS {
        /// Offset (2 bits)
        pub const offset: u16 = 2;
        /// Mask (1 bit: 1 << 2)
        pub const mask: u16 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// OPM
    pub mod OPM {
        /// Offset (3 bits)
        pub const offset: u16 = 3;
        /// Mask (1 bit: 1 << 3)
        pub const mask: u16 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// ARPE
    pub mod ARPE {
        /// Offset (7 bits)
        pub const offset: u16 = 7;
        /// Mask (1 bit: 1 << 7)
        pub const mask: u16 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// CKD
    pub mod CKD {
        /// Offset (8 bits)
        pub const offset: u16 = 8;
        /// Mask (2 bits: 0b11 << 8)
        pub const mask: u16 = 0b11 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// UIFREMAP
    pub mod UIFREMAP {
        /// Offset (11 bits)
        pub const offset: u16 = 11;
        /// Mask (1 bit: 1 << 11)
        pub const mask: u16 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }
}

/// TIM12 control register 2
pub mod TIM12_CR2 {

    /// MMS
    pub mod MMS {
        /// Offset (4 bits)
        pub const offset: u32 = 4;
        /// Mask (3 bits: 0b111 << 4)
        pub const mask: u32 = 0b111 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// TI1S
    pub mod TI1S {
        /// Offset (7 bits)
        pub const offset: u32 = 7;
        /// Mask (1 bit: 1 << 7)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }
}

/// TIM12 slave mode control register
pub mod TIM12_SMCR {

    /// SMS
    pub mod SMS {
        /// Offset (0 bits)
        pub const offset: u32 = 0;
        /// Mask (3 bits: 0b111 << 0)
        pub const mask: u32 = 0b111 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// TS
    pub mod TS {
        /// Offset (4 bits)
        pub const offset: u32 = 4;
        /// Mask (3 bits: 0b111 << 4)
        pub const mask: u32 = 0b111 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// MSM
    pub mod MSM {
        /// Offset (7 bits)
        pub const offset: u32 = 7;
        /// Mask (1 bit: 1 << 7)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// SMS_3
    pub mod SMS_3 {
        /// Offset (16 bits)
        pub const offset: u32 = 16;
        /// Mask (1 bit: 1 << 16)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// TS_3
    pub mod TS_3 {
        /// Offset (20 bits)
        pub const offset: u32 = 20;
        /// Mask (1 bit: 1 << 20)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// TS_4
    pub mod TS_4 {
        /// Offset (21 bits)
        pub const offset: u32 = 21;
        /// Mask (1 bit: 1 << 21)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }
}

/// TIM12 interrupt enable register
pub mod TIM12_DIER {

    /// UIE
    pub mod UIE {
        /// Offset (0 bits)
        pub const offset: u16 = 0;
        /// Mask (1 bit: 1 << 0)
        pub const mask: u16 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// CC1IE
    pub mod CC1IE {
        /// Offset (1 bits)
        pub const offset: u16 = 1;
        /// Mask (1 bit: 1 << 1)
        pub const mask: u16 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// CC2IE
    pub mod CC2IE {
        /// Offset (2 bits)
        pub const offset: u16 = 2;
        /// Mask (1 bit: 1 << 2)
        pub const mask: u16 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// TIE
    pub mod TIE {
        /// Offset (6 bits)
        pub const offset: u16 = 6;
        /// Mask (1 bit: 1 << 6)
        pub const mask: u16 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }
}

/// TIM12 status register
pub mod TIM12_SR {

    /// UIF
    pub mod UIF {
        /// Offset (0 bits)
        pub const offset: u32 = 0;
        /// Mask (1 bit: 1 << 0)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// CC1IF
    pub mod CC1IF {
        /// Offset (1 bits)
        pub const offset: u32 = 1;
        /// Mask (1 bit: 1 << 1)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// CC2IF
    pub mod CC2IF {
        /// Offset (2 bits)
        pub const offset: u32 = 2;
        /// Mask (1 bit: 1 << 2)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// TIF
    pub mod TIF {
        /// Offset (6 bits)
        pub const offset: u32 = 6;
        /// Mask (1 bit: 1 << 6)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// CC1OF
    pub mod CC1OF {
        /// Offset (9 bits)
        pub const offset: u32 = 9;
        /// Mask (1 bit: 1 << 9)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// CC2OF
    pub mod CC2OF {
        /// Offset (10 bits)
        pub const offset: u32 = 10;
        /// Mask (1 bit: 1 << 10)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }
}

/// TIM12 event generation register
pub mod TIM12_EGR {

    /// UG
    pub mod UG {
        /// Offset (0 bits)
        pub const offset: u16 = 0;
        /// Mask (1 bit: 1 << 0)
        pub const mask: u16 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// CC1G
    pub mod CC1G {
        /// Offset (1 bits)
        pub const offset: u16 = 1;
        /// Mask (1 bit: 1 << 1)
        pub const mask: u16 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// CC2G
    pub mod CC2G {
        /// Offset (2 bits)
        pub const offset: u16 = 2;
        /// Mask (1 bit: 1 << 2)
        pub const mask: u16 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// TG
    pub mod TG {
        /// Offset (6 bits)
        pub const offset: u16 = 6;
        /// Mask (1 bit: 1 << 6)
        pub const mask: u16 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }
}

/// TIM12_CCMR1_input and TIM12_CCMR1_output
/// TIM12_CCMR1_input: TIM12 capture/compare mode register 1
/// TIM12_CCMR1_output: TIM12 capture/compare mode register 1
pub mod TIM12_CCMR1 {

    /// CC1S
    pub mod CC1S {
        /// Offset (0 bits)
        pub const offset: u32 = 0;
        /// Mask (2 bits: 0b11 << 0)
        pub const mask: u32 = 0b11 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// IC1PSC
    pub mod IC1PSC {
        /// Offset (2 bits)
        pub const offset: u32 = 2;
        /// Mask (2 bits: 0b11 << 2)
        pub const mask: u32 = 0b11 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// IC1F
    pub mod IC1F {
        /// Offset (4 bits)
        pub const offset: u32 = 4;
        /// Mask (4 bits: 0b1111 << 4)
        pub const mask: u32 = 0b1111 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// CC2S
    pub mod CC2S {
        /// Offset (8 bits)
        pub const offset: u32 = 8;
        /// Mask (2 bits: 0b11 << 8)
        pub const mask: u32 = 0b11 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// IC2PSC
    pub mod IC2PSC {
        /// Offset (10 bits)
        pub const offset: u32 = 10;
        /// Mask (2 bits: 0b11 << 10)
        pub const mask: u32 = 0b11 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// IC2F
    pub mod IC2F {
        /// Offset (12 bits)
        pub const offset: u32 = 12;
        /// Mask (4 bits: 0b1111 << 12)
        pub const mask: u32 = 0b1111 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// OC1FE
    pub mod OC1FE {
        /// Offset (2 bits)
        pub const offset: u32 = 2;
        /// Mask (1 bit: 1 << 2)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// OC1FE
    pub mod OC1PE {
        /// Offset (3 bits)
        pub const offset: u32 = 3;
        /// Mask (1 bit: 1 << 3)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// OC1M
    pub mod OC1M {
        /// Offset (4 bits)
        pub const offset: u32 = 4;
        /// Mask (3 bits: 0b111 << 4)
        pub const mask: u32 = 0b111 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// OC2FE
    pub mod OC2FE {
        /// Offset (10 bits)
        pub const offset: u32 = 10;
        /// Mask (1 bit: 1 << 10)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// OC2PE
    pub mod OC2PE {
        /// Offset (11 bits)
        pub const offset: u32 = 11;
        /// Mask (1 bit: 1 << 11)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// OC2M
    pub mod OC2M {
        /// Offset (12 bits)
        pub const offset: u32 = 12;
        /// Mask (3 bits: 0b111 << 12)
        pub const mask: u32 = 0b111 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// OC1M_3
    pub mod OC1M_3 {
        /// Offset (16 bits)
        pub const offset: u32 = 16;
        /// Mask (1 bit: 1 << 16)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// OC2M_3
    pub mod OC2M_3 {
        /// Offset (24 bits)
        pub const offset: u32 = 24;
        /// Mask (1 bit: 1 << 24)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }
}

/// TIM12 capture/compare enable register
pub mod TIM12_CCER {

    /// CC1E
    pub mod CC1E {
        /// Offset (0 bits)
        pub const offset: u32 = 0;
        /// Mask (1 bit: 1 << 0)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// CC1P
    pub mod CC1P {
        /// Offset (1 bits)
        pub const offset: u32 = 1;
        /// Mask (1 bit: 1 << 1)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// CC1NP
    pub mod CC1NP {
        /// Offset (3 bits)
        pub const offset: u32 = 3;
        /// Mask (1 bit: 1 << 3)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// CC2E
    pub mod CC2E {
        /// Offset (4 bits)
        pub const offset: u32 = 4;
        /// Mask (1 bit: 1 << 4)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// CC2P
    pub mod CC2P {
        /// Offset (5 bits)
        pub const offset: u32 = 5;
        /// Mask (1 bit: 1 << 5)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// CC2NP
    pub mod CC2NP {
        /// Offset (7 bits)
        pub const offset: u32 = 7;
        /// Mask (1 bit: 1 << 7)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }
}

/// TIM12 counter
pub mod TIM12_CNT {

    /// CNT
    pub mod CNT {
        /// Offset (0 bits)
        pub const offset: u32 = 0;
        /// Mask (16 bits: 0xffff << 0)
        pub const mask: u32 = 0xffff << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// UIFCPY
    pub mod UIFCPY {
        /// Offset (31 bits)
        pub const offset: u32 = 31;
        /// Mask (1 bit: 1 << 31)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }
}

/// TIM12 prescaler
pub mod TIM12_PSC {

    /// PSC
    pub mod PSC {
        /// Offset (0 bits)
        pub const offset: u16 = 0;
        /// Mask (16 bits: 0xffff << 0)
        pub const mask: u16 = 0xffff << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }
}

/// TIM12 auto-reload register
pub mod TIM12_ARR {

    /// ARR
    pub mod ARR {
        /// Offset (0 bits)
        pub const offset: u16 = 0;
        /// Mask (16 bits: 0xffff << 0)
        pub const mask: u16 = 0xffff << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }
}

/// TIM12 capture/compare register 1
pub mod TIM12_CCR1 {

    /// CCR1
    pub mod CCR1 {
        /// Offset (0 bits)
        pub const offset: u16 = 0;
        /// Mask (16 bits: 0xffff << 0)
        pub const mask: u16 = 0xffff << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }
}

/// TIM12 capture/compare register 2
pub mod TIM12_CCR2 {

    /// CCR2
    pub mod CCR2 {
        /// Offset (0 bits)
        pub const offset: u16 = 0;
        /// Mask (16 bits: 0xffff << 0)
        pub const mask: u16 = 0xffff << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }
}

/// TIM12 timer input selection register
pub mod TIM12_TISEL {

    /// TI1SEL
    pub mod TI1SEL {
        /// Offset (0 bits)
        pub const offset: u32 = 0;
        /// Mask (4 bits: 0b1111 << 0)
        pub const mask: u32 = 0b1111 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// TI2SEL
    pub mod TI2SEL {
        /// Offset (8 bits)
        pub const offset: u32 = 8;
        /// Mask (4 bits: 0b1111 << 8)
        pub const mask: u32 = 0b1111 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }
}
#[repr(C)]
pub struct RegisterBlock {
    /// TIM12 control register 1
    pub TIM12_CR1: RWRegister<u16>,

    _reserved1: [u16; 1],

    /// TIM12 control register 2
    pub TIM12_CR2: RWRegister<u32>,

    /// TIM12 slave mode control register
    pub TIM12_SMCR: RWRegister<u32>,

    /// TIM12 interrupt enable register
    pub TIM12_DIER: RWRegister<u16>,

    _reserved2: [u16; 1],

    /// TIM12 status register
    pub TIM12_SR: RWRegister<u32>,

    /// TIM12 event generation register
    pub TIM12_EGR: WORegister<u16>,

    _reserved3: [u16; 1],

    /// TIM12_CCMR1_input and TIM12_CCMR1_output
    /// TIM12_CCMR1_input: TIM12 capture/compare mode register 1
    /// TIM12_CCMR1_output: TIM12 capture/compare mode register 1
    pub TIM12_CCMR1: RWRegister<u32>,

    _reserved4: [u32; 1],

    /// TIM12 capture/compare enable register
    pub TIM12_CCER: RWRegister<u32>,

    /// TIM12 counter
    pub TIM12_CNT: RWRegister<u32>,

    /// TIM12 prescaler
    pub TIM12_PSC: RWRegister<u16>,

    _reserved5: [u16; 1],

    /// TIM12 auto-reload register
    pub TIM12_ARR: RWRegister<u16>,

    _reserved6: [u32; 1],
    _reserved7: [u16; 1],

    /// TIM12 capture/compare register 1
    pub TIM12_CCR1: RWRegister<u16>,

    _reserved8: [u16; 1],

    /// TIM12 capture/compare register 2
    pub TIM12_CCR2: RWRegister<u16>,

    _reserved9: [u32; 11],
    _reserved10: [u16; 1],

    /// TIM12 timer input selection register
    pub TIM12_TISEL: RWRegister<u32>,
}
pub struct ResetValues {
    pub TIM12_CR1: u16,
    pub TIM12_CR2: u32,
    pub TIM12_SMCR: u32,
    pub TIM12_DIER: u16,
    pub TIM12_SR: u32,
    pub TIM12_EGR: u16,
    pub TIM12_CCMR1: u32,
    pub TIM12_CCER: u32,
    pub TIM12_CNT: u32,
    pub TIM12_PSC: u16,
    pub TIM12_ARR: u16,
    pub TIM12_CCR1: u16,
    pub TIM12_CCR2: u16,
    pub TIM12_TISEL: u32,
}
#[cfg(not(feature = "nosync"))]
pub struct Instance {
    pub(crate) addr: u32,
    pub(crate) _marker: PhantomData<*const RegisterBlock>,
}
#[cfg(not(feature = "nosync"))]
impl ::core::ops::Deref for Instance {
    type Target = RegisterBlock;
    #[inline(always)]
    fn deref(&self) -> &RegisterBlock {
        unsafe { &*(self.addr as *const _) }
    }
}
#[cfg(feature = "rtic")]
unsafe impl Send for Instance {}

/// Access functions for the TIM12 peripheral instance
pub mod TIM12 {
    use super::ResetValues;

    #[cfg(not(feature = "nosync"))]
    use super::Instance;

    #[cfg(not(feature = "nosync"))]
    const INSTANCE: Instance = Instance {
        addr: 0x40006000,
        _marker: ::core::marker::PhantomData,
    };

    /// Reset values for each field in TIM12
    pub const reset: ResetValues = ResetValues {
        TIM12_CR1: 0x00000000,
        TIM12_CR2: 0x00000000,
        TIM12_SMCR: 0x00000000,
        TIM12_DIER: 0x00000000,
        TIM12_SR: 0x00000000,
        TIM12_EGR: 0x00000000,
        TIM12_CCMR1: 0x00000000,
        TIM12_CCER: 0x00000000,
        TIM12_CNT: 0x00000000,
        TIM12_PSC: 0x00000000,
        TIM12_ARR: 0x0000FFFF,
        TIM12_CCR1: 0x00000000,
        TIM12_CCR2: 0x00000000,
        TIM12_TISEL: 0x00000000,
    };

    #[cfg(not(feature = "nosync"))]
    #[allow(renamed_and_removed_lints)]
    #[allow(private_no_mangle_statics)]
    #[no_mangle]
    static mut TIM12_TAKEN: bool = false;

    /// Safe access to TIM12
    ///
    /// This function returns `Some(Instance)` if this instance is not
    /// currently taken, and `None` if it is. This ensures that if you
    /// do get `Some(Instance)`, you are ensured unique access to
    /// the peripheral and there cannot be data races (unless other
    /// code uses `unsafe`, of course). You can then pass the
    /// `Instance` around to other functions as required. When you're
    /// done with it, you can call `release(instance)` to return it.
    ///
    /// `Instance` itself dereferences to a `RegisterBlock`, which
    /// provides access to the peripheral's registers.
    #[cfg(not(feature = "nosync"))]
    #[inline]
    pub fn take() -> Option<Instance> {
        external_cortex_m::interrupt::free(|_| unsafe {
            if TIM12_TAKEN {
                None
            } else {
                TIM12_TAKEN = true;
                Some(INSTANCE)
            }
        })
    }

    /// Release exclusive access to TIM12
    ///
    /// This function allows you to return an `Instance` so that it
    /// is available to `take()` again. This function will panic if
    /// you return a different `Instance` or if this instance is not
    /// already taken.
    #[cfg(not(feature = "nosync"))]
    #[inline]
    pub fn release(inst: Instance) {
        external_cortex_m::interrupt::free(|_| unsafe {
            if TIM12_TAKEN && inst.addr == INSTANCE.addr {
                TIM12_TAKEN = false;
            } else {
                panic!("Released a peripheral which was not taken");
            }
        });
    }

    /// Unsafely steal TIM12
    ///
    /// This function is similar to take() but forcibly takes the
    /// Instance, marking it as taken irregardless of its previous
    /// state.
    #[cfg(not(feature = "nosync"))]
    #[inline]
    pub unsafe fn steal() -> Instance {
        TIM12_TAKEN = true;
        INSTANCE
    }
}

/// Raw pointer to TIM12
///
/// Dereferencing this is unsafe because you are not ensured unique
/// access to the peripheral, so you may encounter data races with
/// other users of this peripheral. It is up to you to ensure you
/// will not cause data races.
///
/// This constant is provided for ease of use in unsafe code: you can
/// simply call for example `write_reg!(gpio, GPIOA, ODR, 1);`.
pub const TIM12: *const RegisterBlock = 0x40006000 as *const _;