stm32ral 0.5.0

#![allow(non_snake_case, non_upper_case_globals)]
#![allow(non_camel_case_types)]
//! Advanced-timers
//!
//! Used by: stm32h747cm4, stm32h747cm7, stm32h7b3

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

/// control register 1
pub mod CR1 {

    /// Counter enable
    pub mod CEN {
        /// 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
        pub mod RW {

            /// 0b0: Counter disabled
            pub const Disabled: u32 = 0b0;

            /// 0b1: Counter enabled
            pub const Enabled: u32 = 0b1;
        }
    }

    /// Update disable
    pub mod UDIS {
        /// 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
        pub mod RW {

            /// 0b0: Update event enabled
            pub const Enabled: u32 = 0b0;

            /// 0b1: Update event disabled
            pub const Disabled: u32 = 0b1;
        }
    }

    /// Update request source
    pub mod URS {
        /// 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
        pub mod RW {

            /// 0b0: Any of counter overflow/underflow, setting UG, or update through slave mode, generates an update interrupt or DMA request
            pub const AnyEvent: u32 = 0b0;

            /// 0b1: Only counter overflow/underflow generates an update interrupt or DMA request
            pub const CounterOnly: u32 = 0b1;
        }
    }

    /// One-pulse mode
    pub mod OPM {
        /// 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
        pub mod RW {

            /// 0b0: Counter is not stopped at update event
            pub const Disabled: u32 = 0b0;

            /// 0b1: Counter stops counting at the next update event (clearing the CEN bit)
            pub const Enabled: u32 = 0b1;
        }
    }

    /// Direction
    pub mod DIR {
        /// 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
        pub mod RW {

            /// 0b0: Counter used as upcounter
            pub const Up: u32 = 0b0;

            /// 0b1: Counter used as downcounter
            pub const Down: u32 = 0b1;
        }
    }

    /// Center-aligned mode selection
    pub mod CMS {
        /// Offset (5 bits)
        pub const offset: u32 = 5;
        /// Mask (2 bits: 0b11 << 5)
        pub const mask: u32 = 0b11 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values
        pub mod RW {

            /// 0b00: The counter counts up or down depending on the direction bit
            pub const EdgeAligned: u32 = 0b00;

            /// 0b01: The counter counts up and down alternatively. Output compare interrupt flags are set only when the counter is counting down.
            pub const CenterAligned1: u32 = 0b01;

            /// 0b10: The counter counts up and down alternatively. Output compare interrupt flags are set only when the counter is counting up.
            pub const CenterAligned2: u32 = 0b10;

            /// 0b11: The counter counts up and down alternatively. Output compare interrupt flags are set both when the counter is counting up or down.
            pub const CenterAligned3: u32 = 0b11;
        }
    }

    /// Auto-reload preload enable
    pub mod ARPE {
        /// 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
        pub mod RW {

            /// 0b0: TIMx_APRR register is not buffered
            pub const Disabled: u32 = 0b0;

            /// 0b1: TIMx_APRR register is buffered
            pub const Enabled: u32 = 0b1;
        }
    }

    /// Clock division
    pub mod CKD {
        /// 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
        pub mod RW {

            /// 0b00: t_DTS = t_CK_INT
            pub const Div1: u32 = 0b00;

            /// 0b01: t_DTS = 2 × t_CK_INT
            pub const Div2: u32 = 0b01;

            /// 0b10: t_DTS = 4 × t_CK_INT
            pub const Div4: u32 = 0b10;
        }
    }

    /// UIF status bit remapping
    pub mod UIFREMAP {
        /// 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 {}
    }
}

/// control register 2
pub mod CR2 {

    /// Master mode selection 2
    pub mod MMS2 {
        /// Offset (20 bits)
        pub const offset: u32 = 20;
        /// Mask (4 bits: 0b1111 << 20)
        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 {}
    }

    /// Output Idle state 6
    pub mod OIS6 {
        /// Offset (18 bits)
        pub const offset: u32 = 18;
        /// Mask (1 bit: 1 << 18)
        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 {}
    }

    /// Output Idle state 5
    pub mod OIS5 {
        /// 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 {}
    }

    /// Output Idle state 4
    pub mod OIS4 {
        /// Offset (14 bits)
        pub const offset: u32 = 14;
        /// Mask (1 bit: 1 << 14)
        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 {}
    }

    /// Output Idle state 3
    pub mod OIS3N {
        /// Offset (13 bits)
        pub const offset: u32 = 13;
        /// Mask (1 bit: 1 << 13)
        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 {}
    }

    /// Output Idle state 3
    pub mod OIS3 {
        /// Offset (12 bits)
        pub const offset: u32 = 12;
        /// Mask (1 bit: 1 << 12)
        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 {}
    }

    /// Output Idle state 2
    pub mod OIS2N {
        /// 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 {}
    }

    /// Output Idle state 2
    pub mod OIS2 {
        /// 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 {}
    }

    /// Output Idle state 1
    pub mod OIS1N {
        /// 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 {}
    }

    /// Output Idle state 1
    pub mod OIS1 {
        /// Offset (8 bits)
        pub const offset: u32 = 8;
        /// Mask (1 bit: 1 << 8)
        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 {}
    }

    /// TI1 selection
    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
        pub mod RW {

            /// 0b0: The TIMx_CH1 pin is connected to TI1 input
            pub const Normal: u32 = 0b0;

            /// 0b1: The TIMx_CH1, CH2, CH3 pins are connected to TI1 input
            pub const XOR: u32 = 0b1;
        }
    }

    /// Master mode selection
    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
        pub mod RW {

            /// 0b000: The UG bit from the TIMx_EGR register is used as trigger output
            pub const Reset: u32 = 0b000;

            /// 0b001: The counter enable signal, CNT_EN, is used as trigger output
            pub const Enable: u32 = 0b001;

            /// 0b010: The update event is selected as trigger output
            pub const Update: u32 = 0b010;

            /// 0b011: The trigger output send a positive pulse when the CC1IF flag it to be set, as soon as a capture or a compare match occurred
            pub const ComparePulse: u32 = 0b011;

            /// 0b100: OC1REF signal is used as trigger output
            pub const CompareOC1: u32 = 0b100;

            /// 0b101: OC2REF signal is used as trigger output
            pub const CompareOC2: u32 = 0b101;

            /// 0b110: OC3REF signal is used as trigger output
            pub const CompareOC3: u32 = 0b110;

            /// 0b111: OC4REF signal is used as trigger output
            pub const CompareOC4: u32 = 0b111;
        }
    }

    /// Capture/compare DMA selection
    pub mod CCDS {
        /// 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
        pub mod RW {

            /// 0b0: CCx DMA request sent when CCx event occurs
            pub const OnCompare: u32 = 0b0;

            /// 0b1: CCx DMA request sent when update event occurs
            pub const OnUpdate: u32 = 0b1;
        }
    }

    /// Capture/compare control update selection
    pub mod CCUS {
        /// 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 {}
    }

    /// Capture/compare preloaded control
    pub mod CCPC {
        /// 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 {}
    }
}

/// slave mode control register
pub mod SMCR {

    /// Slave mode selection
    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
        pub mod RW {

            /// 0b000: Slave mode disabled - if CEN = ‘1 then the prescaler is clocked directly by the internal clock.
            pub const Disabled: u32 = 0b000;

            /// 0b001: Encoder mode 1 - Counter counts up/down on TI2FP1 edge depending on TI1FP2 level.
            pub const Encoder_Mode_1: u32 = 0b001;

            /// 0b010: Encoder mode 2 - Counter counts up/down on TI1FP2 edge depending on TI2FP1 level.
            pub const Encoder_Mode_2: u32 = 0b010;

            /// 0b011: Encoder mode 3 - Counter counts up/down on both TI1FP1 and TI2FP2 edges depending on the level of the other input.
            pub const Encoder_Mode_3: u32 = 0b011;

            /// 0b100: Reset Mode - Rising edge of the selected trigger input (TRGI) reinitializes the counter and generates an update of the registers.
            pub const Reset_Mode: u32 = 0b100;

            /// 0b101: Gated Mode - The counter clock is enabled when the trigger input (TRGI) is high. The counter stops (but is not reset) as soon as the trigger becomes low. Both start and stop of the counter are controlled.
            pub const Gated_Mode: u32 = 0b101;

            /// 0b110: Trigger Mode - The counter starts at a rising edge of the trigger TRGI (but it is not reset). Only the start of the counter is controlled.
            pub const Trigger_Mode: u32 = 0b110;

            /// 0b111: External Clock Mode 1 - Rising edges of the selected trigger (TRGI) clock the counter.
            pub const Ext_Clock_Mode: u32 = 0b111;
        }
    }

    /// Trigger selection
    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
        pub mod RW {

            /// 0b000: Internal Trigger 0 (ITR0)
            pub const ITR0: u32 = 0b000;

            /// 0b001: Internal Trigger 1 (ITR1)
            pub const ITR1: u32 = 0b001;

            /// 0b010: Internal Trigger 2 (ITR2)
            pub const ITR2: u32 = 0b010;

            /// 0b100: TI1 Edge Detector (TI1F_ED)
            pub const TI1F_ED: u32 = 0b100;

            /// 0b101: Filtered Timer Input 1 (TI1FP1)
            pub const TI1FP1: u32 = 0b101;

            /// 0b110: Filtered Timer Input 2 (TI2FP2)
            pub const TI2FP2: u32 = 0b110;

            /// 0b111: External Trigger input (ETRF)
            pub const ETRF: u32 = 0b111;
        }
    }

    /// Master/Slave mode
    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
        pub mod RW {

            /// 0b0: No action
            pub const NoSync: u32 = 0b0;

            /// 0b1: The effect of an event on the trigger input (TRGI) is delayed to allow a perfect synchronization between the current timer and its slaves (through TRGO). It is useful if we want to synchronize several timers on a single external event.
            pub const Sync: u32 = 0b1;
        }
    }

    /// External trigger filter
    pub mod ETF {
        /// 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
        pub mod RW {

            /// 0b0000: No filter, sampling is done at fDTS
            pub const NoFilter: u32 = 0b0000;

            /// 0b0001: fSAMPLING=fCK_INT, N=2
            pub const FCK_INT_N2: u32 = 0b0001;

            /// 0b0010: fSAMPLING=fCK_INT, N=4
            pub const FCK_INT_N4: u32 = 0b0010;

            /// 0b0011: fSAMPLING=fCK_INT, N=8
            pub const FCK_INT_N8: u32 = 0b0011;

            /// 0b0100: fSAMPLING=fDTS/2, N=6
            pub const FDTS_Div2_N6: u32 = 0b0100;

            /// 0b0101: fSAMPLING=fDTS/2, N=8
            pub const FDTS_Div2_N8: u32 = 0b0101;

            /// 0b0110: fSAMPLING=fDTS/4, N=6
            pub const FDTS_Div4_N6: u32 = 0b0110;

            /// 0b0111: fSAMPLING=fDTS/4, N=8
            pub const FDTS_Div4_N8: u32 = 0b0111;

            /// 0b1000: fSAMPLING=fDTS/8, N=6
            pub const FDTS_Div8_N6: u32 = 0b1000;

            /// 0b1001: fSAMPLING=fDTS/8, N=8
            pub const FDTS_Div8_N8: u32 = 0b1001;

            /// 0b1010: fSAMPLING=fDTS/16, N=5
            pub const FDTS_Div16_N5: u32 = 0b1010;

            /// 0b1011: fSAMPLING=fDTS/16, N=6
            pub const FDTS_Div16_N6: u32 = 0b1011;

            /// 0b1100: fSAMPLING=fDTS/16, N=8
            pub const FDTS_Div16_N8: u32 = 0b1100;

            /// 0b1101: fSAMPLING=fDTS/32, N=5
            pub const FDTS_Div32_N5: u32 = 0b1101;

            /// 0b1110: fSAMPLING=fDTS/32, N=6
            pub const FDTS_Div32_N6: u32 = 0b1110;

            /// 0b1111: fSAMPLING=fDTS/32, N=8
            pub const FDTS_Div32_N8: u32 = 0b1111;
        }
    }

    /// External trigger prescaler
    pub mod ETPS {
        /// Offset (12 bits)
        pub const offset: u32 = 12;
        /// Mask (2 bits: 0b11 << 12)
        pub const mask: u32 = 0b11 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values
        pub mod RW {

            /// 0b00: Prescaler OFF
            pub const Div1: u32 = 0b00;

            /// 0b01: ETRP frequency divided by 2
            pub const Div2: u32 = 0b01;

            /// 0b10: ETRP frequency divided by 4
            pub const Div4: u32 = 0b10;

            /// 0b11: ETRP frequency divided by 8
            pub const Div8: u32 = 0b11;
        }
    }

    /// External clock enable
    pub mod ECE {
        /// Offset (14 bits)
        pub const offset: u32 = 14;
        /// Mask (1 bit: 1 << 14)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values
        pub mod RW {

            /// 0b0: External clock mode 2 disabled
            pub const Disabled: u32 = 0b0;

            /// 0b1: External clock mode 2 enabled. The counter is clocked by any active edge on the ETRF signal.
            pub const Enabled: u32 = 0b1;
        }
    }

    /// External trigger polarity
    pub mod ETP {
        /// Offset (15 bits)
        pub const offset: u32 = 15;
        /// Mask (1 bit: 1 << 15)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values
        pub mod RW {

            /// 0b0: ETR is noninverted, active at high level or rising edge
            pub const NotInverted: u32 = 0b0;

            /// 0b1: ETR is inverted, active at low level or falling edge
            pub const Inverted: u32 = 0b1;
        }
    }

    /// Slave mode selection - bit 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 {}
    }

    /// Trigger selection - bit 4:3
    pub mod TS_4_3 {
        /// Offset (20 bits)
        pub const offset: u32 = 20;
        /// Mask (2 bits: 0b11 << 20)
        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 {}
    }
}

/// DMA/Interrupt enable register
pub mod DIER {

    /// Trigger DMA request enable
    pub mod TDE {
        /// Offset (14 bits)
        pub const offset: u32 = 14;
        /// Mask (1 bit: 1 << 14)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values
        pub mod RW {

            /// 0b0: Trigger DMA request disabled
            pub const Disabled: u32 = 0b0;

            /// 0b1: Trigger DMA request enabled
            pub const Enabled: u32 = 0b1;
        }
    }

    /// COM DMA request enable
    pub mod COMDE {
        /// Offset (13 bits)
        pub const offset: u32 = 13;
        /// Mask (1 bit: 1 << 13)
        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 {}
    }

    /// Capture/Compare 4 DMA request enable
    pub mod CC4DE {
        /// Offset (12 bits)
        pub const offset: u32 = 12;
        /// Mask (1 bit: 1 << 12)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values
        pub mod RW {

            /// 0b0: CCx DMA request disabled
            pub const Disabled: u32 = 0b0;

            /// 0b1: CCx DMA request enabled
            pub const Enabled: u32 = 0b1;
        }
    }

    /// Capture/Compare 3 DMA request enable
    pub mod CC3DE {
        /// 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 {}
        pub use super::CC4DE::RW;
    }

    /// Capture/Compare 2 DMA request enable
    pub mod CC2DE {
        /// 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 {}
        pub use super::CC4DE::RW;
    }

    /// Capture/Compare 1 DMA request enable
    pub mod CC1DE {
        /// 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 {}
        pub use super::CC4DE::RW;
    }

    /// Update DMA request enable
    pub mod UDE {
        /// Offset (8 bits)
        pub const offset: u32 = 8;
        /// Mask (1 bit: 1 << 8)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values
        pub mod RW {

            /// 0b0: Update DMA request disabled
            pub const Disabled: u32 = 0b0;

            /// 0b1: Update DMA request enabled
            pub const Enabled: u32 = 0b1;
        }
    }

    /// Trigger interrupt enable
    pub mod TIE {
        /// 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
        pub mod RW {

            /// 0b0: Trigger interrupt disabled
            pub const Disabled: u32 = 0b0;

            /// 0b1: Trigger interrupt enabled
            pub const Enabled: u32 = 0b1;
        }
    }

    /// Capture/Compare 4 interrupt enable
    pub mod CC4IE {
        /// 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
        pub mod RW {

            /// 0b0: CCx interrupt disabled
            pub const Disabled: u32 = 0b0;

            /// 0b1: CCx interrupt enabled
            pub const Enabled: u32 = 0b1;
        }
    }

    /// Capture/Compare 3 interrupt enable
    pub mod CC3IE {
        /// 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 {}
        pub use super::CC4IE::RW;
    }

    /// Capture/Compare 2 interrupt enable
    pub mod CC2IE {
        /// 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 {}
        pub use super::CC4IE::RW;
    }

    /// Capture/Compare 1 interrupt enable
    pub mod CC1IE {
        /// 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 {}
        pub use super::CC4IE::RW;
    }

    /// Update interrupt enable
    pub mod UIE {
        /// 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
        pub mod RW {

            /// 0b0: Update interrupt disabled
            pub const Disabled: u32 = 0b0;

            /// 0b1: Update interrupt enabled
            pub const Enabled: u32 = 0b1;
        }
    }

    /// Break interrupt enable
    pub mod BIE {
        /// 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 {}
    }

    /// COM interrupt enable
    pub mod COMIE {
        /// 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 {}
    }
}

/// status register
pub mod SR {

    /// Compare 6 interrupt flag
    pub mod CC6IF {
        /// Offset (17 bits)
        pub const offset: u32 = 17;
        /// Mask (1 bit: 1 << 17)
        pub const mask: u32 = 1 << offset;
        /// Read-only values
        pub mod R {

            /// 0b1: If CC1 is an output: The content of the counter TIMx_CNT matches the content of the TIMx_CCR1 register. If CC1 is an input: The counter value has been captured in TIMx_CCR1 register.
            pub const Match: u32 = 0b1;
        }
        /// Write-only values
        pub mod W {

            /// 0b0: Clear flag
            pub const Clear: u32 = 0b0;
        }
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// Compare 5 interrupt flag
    pub mod CC5IF {
        /// Offset (16 bits)
        pub const offset: u32 = 16;
        /// Mask (1 bit: 1 << 16)
        pub const mask: u32 = 1 << offset;
        pub use super::CC6IF::R;
        pub use super::CC6IF::W;
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// System Break interrupt flag
    pub mod SBIF {
        /// Offset (13 bits)
        pub const offset: u32 = 13;
        /// Mask (1 bit: 1 << 13)
        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 {}
    }

    /// Capture/Compare 4 overcapture flag
    pub mod CC4OF {
        /// Offset (12 bits)
        pub const offset: u32 = 12;
        /// Mask (1 bit: 1 << 12)
        pub const mask: u32 = 1 << offset;
        /// Read-only values
        pub mod R {

            /// 0b1: The counter value has been captured in TIMx_CCRx register while CCxIF flag was already set
            pub const Overcapture: u32 = 0b1;
        }
        pub use super::CC6IF::W;
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// Capture/Compare 3 overcapture flag
    pub mod CC3OF {
        /// Offset (11 bits)
        pub const offset: u32 = 11;
        /// Mask (1 bit: 1 << 11)
        pub const mask: u32 = 1 << offset;
        /// Read-only values
        pub mod R {

            /// 0b1: The counter value has been captured in TIMx_CCRx register while CCxIF flag was already set
            pub const Overcapture: u32 = 0b1;
        }
        pub use super::CC6IF::W;
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// Capture/compare 2 overcapture flag
    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
        pub mod R {

            /// 0b1: The counter value has been captured in TIMx_CCRx register while CCxIF flag was already set
            pub const Overcapture: u32 = 0b1;
        }
        pub use super::CC6IF::W;
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// Capture/Compare 1 overcapture flag
    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
        pub mod R {

            /// 0b1: The counter value has been captured in TIMx_CCRx register while CCxIF flag was already set
            pub const Overcapture: u32 = 0b1;
        }
        pub use super::CC6IF::W;
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// Break 2 interrupt flag
    pub mod B2IF {
        /// Offset (8 bits)
        pub const offset: u32 = 8;
        /// Mask (1 bit: 1 << 8)
        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 {}
    }

    /// Break interrupt flag
    pub mod BIF {
        /// 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 {}
    }

    /// Trigger interrupt flag
    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
        pub mod R {

            /// 0b0: No trigger event occurred
            pub const NoTrigger: u32 = 0b0;

            /// 0b1: Trigger interrupt pending
            pub const Trigger: u32 = 0b1;
        }
        pub use super::CC6IF::W;
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// COM interrupt flag
    pub mod COMIF {
        /// 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 {}
    }

    /// Capture/Compare 4 interrupt flag
    pub mod CC4IF {
        /// Offset (4 bits)
        pub const offset: u32 = 4;
        /// Mask (1 bit: 1 << 4)
        pub const mask: u32 = 1 << offset;
        pub use super::CC6IF::R;
        pub use super::CC6IF::W;
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// Capture/Compare 3 interrupt flag
    pub mod CC3IF {
        /// Offset (3 bits)
        pub const offset: u32 = 3;
        /// Mask (1 bit: 1 << 3)
        pub const mask: u32 = 1 << offset;
        pub use super::CC6IF::R;
        pub use super::CC6IF::W;
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// Capture/Compare 2 interrupt flag
    pub mod CC2IF {
        /// Offset (2 bits)
        pub const offset: u32 = 2;
        /// Mask (1 bit: 1 << 2)
        pub const mask: u32 = 1 << offset;
        pub use super::CC6IF::R;
        pub use super::CC6IF::W;
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// Capture/compare 1 interrupt flag
    pub mod CC1IF {
        /// Offset (1 bits)
        pub const offset: u32 = 1;
        /// Mask (1 bit: 1 << 1)
        pub const mask: u32 = 1 << offset;
        pub use super::CC6IF::R;
        pub use super::CC6IF::W;
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// Update interrupt flag
    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
        pub mod RW {

            /// 0b0: No update occurred
            pub const Clear: u32 = 0b0;

            /// 0b1: Update interrupt pending.
            pub const UpdatePending: u32 = 0b1;
        }
    }
}

/// event generation register
pub mod EGR {

    /// Update generation
    pub mod UG {
        /// 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
        pub mod RW {

            /// 0b1: Re-initializes the timer counter and generates an update of the registers.
            pub const Update: u32 = 0b1;
        }
    }

    /// Capture/compare 1 generation
    pub mod CC1G {
        /// 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
        pub mod W {

            /// 0b1: If CC1 is an output: CC1IF flag is set, Corresponding interrupt or DMA request is sent if enabled. If CC1 is an input: The current value of the counter is captured in TIMx_CCR1 register.
            pub const Trigger: u32 = 0b1;
        }
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// Capture/compare 2 generation
    pub mod CC2G {
        /// 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 {}
        pub use super::CC1G::W;
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// Capture/compare 3 generation
    pub mod CC3G {
        /// 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 {}
        pub use super::CC1G::W;
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// Capture/compare 4 generation
    pub mod CC4G {
        /// 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 {}
        pub use super::CC1G::W;
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// Capture/Compare control update generation
    pub mod COMG {
        /// 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 {}
    }

    /// Trigger generation
    pub mod TG {
        /// 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
        pub mod W {

            /// 0b1: The TIF flag is set in TIMx_SR register. Related interrupt or DMA transfer can occur if enabled.
            pub const Trigger: u32 = 0b1;
        }
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// Break generation
    pub mod BG {
        /// 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 {}
    }

    /// Break 2 generation
    pub mod B2G {
        /// Offset (8 bits)
        pub const offset: u32 = 8;
        /// Mask (1 bit: 1 << 8)
        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 {}
    }
}

/// CCMR1_Output and CCMR1_Input
/// CCMR1_Output: capture/compare mode register 1 (output mode)
/// CCMR1_Input: capture/compare mode register 1 (input mode)
pub mod CCMR1 {

    /// Capture/Compare 1 selection
    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
        pub mod RW {

            /// 0b00: CC1 channel is configured as output
            pub const Output: u32 = 0b00;
        }
    }

    /// Output Compare 1 fast enable
    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 {}
    }

    /// Output Compare 1 preload enable
    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
        pub mod RW {

            /// 0b0: Preload register on CCR1 disabled. New values written to CCR1 are taken into account immediately
            pub const Disabled: u32 = 0b0;

            /// 0b1: Preload register on CCR1 enabled. Preload value is loaded into active register on each update event
            pub const Enabled: u32 = 0b1;
        }
    }

    /// Output Compare 1 mode
    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
        pub mod RW {

            /// 0b000: The comparison between the output compare register TIMx_CCRy and the counter TIMx_CNT has no effect on the outputs
            pub const Frozen: u32 = 0b000;

            /// 0b001: Set channel to active level on match. OCyREF signal is forced high when the counter matches the capture/compare register
            pub const ActiveOnMatch: u32 = 0b001;

            /// 0b010: Set channel to inactive level on match. OCyREF signal is forced low when the counter matches the capture/compare register
            pub const InactiveOnMatch: u32 = 0b010;

            /// 0b011: OCyREF toggles when TIMx_CNT=TIMx_CCRy
            pub const Toggle: u32 = 0b011;

            /// 0b100: OCyREF is forced low
            pub const ForceInactive: u32 = 0b100;

            /// 0b101: OCyREF is forced high
            pub const ForceActive: u32 = 0b101;

            /// 0b110: In upcounting, channel is active as long as TIMx_CNT<TIMx_CCRy else inactive. In downcounting, channel is inactive as long as TIMx_CNT>TIMx_CCRy else active
            pub const PwmMode1: u32 = 0b110;

            /// 0b111: Inversely to PwmMode1
            pub const PwmMode2: u32 = 0b111;

            /// 0b1000: Retriggerable OPM mode 1 - In up-counting mode, the channel is active until a trigger event is detected (on TRGI signal). In down-counting mode, the channel is inactive
            pub const OpmMode1: u32 = 0b1000;

            /// 0b1001: Inversely to OpmMode1
            pub const OpmMode2: u32 = 0b1001;

            /// 0b1100: OCyREF has the same behavior as in PWM mode 1. OCyREFC is the logical OR between OC1REF and OC2REF
            pub const CombinedPwmMode1: u32 = 0b1100;

            /// 0b1101: OCyREF has the same behavior as in PWM mode 2. OCyREFC is the logical AND between OC1REF and OC2REF
            pub const CombinedPwmMode2: u32 = 0b1101;

            /// 0b1110: OCyREF has the same behavior as in PWM mode 1. OCyREFC outputs OC1REF when the counter is counting up, OC2REF when it is counting down
            pub const AsymmetricPwmMode1: u32 = 0b1110;

            /// 0b1111: OCyREF has the same behavior as in PWM mode 2. OCyREFC outputs OC1REF when the counter is counting up, OC2REF when it is counting down
            pub const AsymmetricPwmMode2: u32 = 0b1111;
        }
    }

    /// Output Compare 1 clear enable
    pub mod OC1CE {
        /// 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 {}
    }

    /// Capture/Compare 2 selection
    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
        pub mod RW {

            /// 0b00: CC2 channel is configured as output
            pub const Output: u32 = 0b00;
        }
    }

    /// Output Compare 2 fast enable
    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 {}
    }

    /// Output Compare 2 preload enable
    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
        pub mod RW {

            /// 0b0: Preload register on CCR2 disabled. New values written to CCR2 are taken into account immediately
            pub const Disabled: u32 = 0b0;

            /// 0b1: Preload register on CCR2 enabled. Preload value is loaded into active register on each update event
            pub const Enabled: u32 = 0b1;
        }
    }

    /// Output Compare 2 mode
    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 {}
        pub use super::OC1M::RW;
    }

    /// Output Compare 2 clear enable
    pub mod OC2CE {
        /// Offset (15 bits)
        pub const offset: u32 = 15;
        /// Mask (1 bit: 1 << 15)
        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 {}
    }

    /// Output Compare 1 mode - bit 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 {}
    }

    /// Output Compare 2 mode - bit 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 {}
    }

    /// Input capture 2 filter
    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 {}
    }

    /// Input capture 2 prescaler
    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 {}
    }

    /// Input capture 1 filter
    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
        pub mod RW {

            /// 0b0000: No filter, sampling is done at fDTS
            pub const NoFilter: u32 = 0b0000;

            /// 0b0001: fSAMPLING=fCK_INT, N=2
            pub const FCK_INT_N2: u32 = 0b0001;

            /// 0b0010: fSAMPLING=fCK_INT, N=4
            pub const FCK_INT_N4: u32 = 0b0010;

            /// 0b0011: fSAMPLING=fCK_INT, N=8
            pub const FCK_INT_N8: u32 = 0b0011;

            /// 0b0100: fSAMPLING=fDTS/2, N=6
            pub const FDTS_Div2_N6: u32 = 0b0100;

            /// 0b0101: fSAMPLING=fDTS/2, N=8
            pub const FDTS_Div2_N8: u32 = 0b0101;

            /// 0b0110: fSAMPLING=fDTS/4, N=6
            pub const FDTS_Div4_N6: u32 = 0b0110;

            /// 0b0111: fSAMPLING=fDTS/4, N=8
            pub const FDTS_Div4_N8: u32 = 0b0111;

            /// 0b1000: fSAMPLING=fDTS/8, N=6
            pub const FDTS_Div8_N6: u32 = 0b1000;

            /// 0b1001: fSAMPLING=fDTS/8, N=8
            pub const FDTS_Div8_N8: u32 = 0b1001;

            /// 0b1010: fSAMPLING=fDTS/16, N=5
            pub const FDTS_Div16_N5: u32 = 0b1010;

            /// 0b1011: fSAMPLING=fDTS/16, N=6
            pub const FDTS_Div16_N6: u32 = 0b1011;

            /// 0b1100: fSAMPLING=fDTS/16, N=8
            pub const FDTS_Div16_N8: u32 = 0b1100;

            /// 0b1101: fSAMPLING=fDTS/32, N=5
            pub const FDTS_Div32_N5: u32 = 0b1101;

            /// 0b1110: fSAMPLING=fDTS/32, N=6
            pub const FDTS_Div32_N6: u32 = 0b1110;

            /// 0b1111: fSAMPLING=fDTS/32, N=8
            pub const FDTS_Div32_N8: u32 = 0b1111;
        }
    }

    /// Input capture 1 prescaler
    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 {}
    }
}

/// CCMR2_Output and CCMR2_Input
/// CCMR2_Output: capture/compare mode register 2 (output mode)
/// CCMR2_Input: capture/compare mode register 2 (input mode)
pub mod CCMR2 {

    /// Capture/Compare 3 selection
    pub mod CC3S {
        /// 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
        pub mod RW {

            /// 0b00: CC3 channel is configured as output
            pub const Output: u32 = 0b00;
        }
    }

    /// Output compare 3 fast enable
    pub mod OC3FE {
        /// 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 {}
    }

    /// Output compare 3 preload enable
    pub mod OC3PE {
        /// 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
        pub mod RW {

            /// 0b0: Preload register on CCR3 disabled. New values written to CCR3 are taken into account immediately
            pub const Disabled: u32 = 0b0;

            /// 0b1: Preload register on CCR3 enabled. Preload value is loaded into active register on each update event
            pub const Enabled: u32 = 0b1;
        }
    }

    /// Output compare 3 mode
    pub mod OC3M {
        /// 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
        pub mod RW {

            /// 0b000: The comparison between the output compare register TIMx_CCRy and the counter TIMx_CNT has no effect on the outputs
            pub const Frozen: u32 = 0b000;

            /// 0b001: Set channel to active level on match. OCyREF signal is forced high when the counter matches the capture/compare register
            pub const ActiveOnMatch: u32 = 0b001;

            /// 0b010: Set channel to inactive level on match. OCyREF signal is forced low when the counter matches the capture/compare register
            pub const InactiveOnMatch: u32 = 0b010;

            /// 0b011: OCyREF toggles when TIMx_CNT=TIMx_CCRy
            pub const Toggle: u32 = 0b011;

            /// 0b100: OCyREF is forced low
            pub const ForceInactive: u32 = 0b100;

            /// 0b101: OCyREF is forced high
            pub const ForceActive: u32 = 0b101;

            /// 0b110: In upcounting, channel is active as long as TIMx_CNT<TIMx_CCRy else inactive. In downcounting, channel is inactive as long as TIMx_CNT>TIMx_CCRy else active
            pub const PwmMode1: u32 = 0b110;

            /// 0b111: Inversely to PwmMode1
            pub const PwmMode2: u32 = 0b111;

            /// 0b1000: Retriggerable OPM mode 1 - In up-counting mode, the channel is active until a trigger event is detected (on TRGI signal). In down-counting mode, the channel is inactive
            pub const OpmMode1: u32 = 0b1000;

            /// 0b1001: Inversely to OpmMode1
            pub const OpmMode2: u32 = 0b1001;

            /// 0b1100: OCyREF has the same behavior as in PWM mode 1. OCyREFC is the logical OR between OC1REF and OC2REF
            pub const CombinedPwmMode1: u32 = 0b1100;

            /// 0b1101: OCyREF has the same behavior as in PWM mode 2. OCyREFC is the logical AND between OC1REF and OC2REF
            pub const CombinedPwmMode2: u32 = 0b1101;

            /// 0b1110: OCyREF has the same behavior as in PWM mode 1. OCyREFC outputs OC1REF when the counter is counting up, OC2REF when it is counting down
            pub const AsymmetricPwmMode1: u32 = 0b1110;

            /// 0b1111: OCyREF has the same behavior as in PWM mode 2. OCyREFC outputs OC1REF when the counter is counting up, OC2REF when it is counting down
            pub const AsymmetricPwmMode2: u32 = 0b1111;
        }
    }

    /// Output compare 3 clear enable
    pub mod OC3CE {
        /// 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 {}
    }

    /// Capture/Compare 4 selection
    pub mod CC4S {
        /// 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
        pub mod RW {

            /// 0b00: CC4 channel is configured as output
            pub const Output: u32 = 0b00;
        }
    }

    /// Output compare 4 fast enable
    pub mod OC4FE {
        /// 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 {}
    }

    /// Output compare 4 preload enable
    pub mod OC4PE {
        /// 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
        pub mod RW {

            /// 0b0: Preload register on CCR4 disabled. New values written to CCR4 are taken into account immediately
            pub const Disabled: u32 = 0b0;

            /// 0b1: Preload register on CCR4 enabled. Preload value is loaded into active register on each update event
            pub const Enabled: u32 = 0b1;
        }
    }

    /// Output compare 4 mode
    pub mod OC4M {
        /// 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 {}
        pub use super::OC3M::RW;
    }

    /// Output compare 4 clear enable
    pub mod OC4CE {
        /// Offset (15 bits)
        pub const offset: u32 = 15;
        /// Mask (1 bit: 1 << 15)
        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 {}
    }

    /// Output Compare 3 mode - bit 3
    pub mod OC3M_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 {}
    }

    /// Output Compare 4 mode - bit 3
    pub mod OC4M_4 {
        /// 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 {}
    }

    /// Input capture 4 filter
    pub mod IC4F {
        /// 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 {}
    }

    /// Input capture 4 prescaler
    pub mod IC4PSC {
        /// 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 {}
    }

    /// Input capture 3 filter
    pub mod IC3F {
        /// 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 {}
    }

    /// Input capture 3 prescaler
    pub mod IC3PSC {
        /// 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 {}
    }
}

/// capture/compare enable register
pub mod CCER {

    /// Capture/Compare 1 output enable
    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 {}
    }

    /// Capture/Compare 1 output Polarity
    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 {}
    }

    /// Capture/Compare 1 complementary output enable
    pub mod CC1NE {
        /// 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 {}
    }

    /// Capture/Compare 1 output Polarity
    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 {}
    }

    /// Capture/Compare 2 output enable
    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 {}
    }

    /// Capture/Compare 2 output Polarity
    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 {}
    }

    /// Capture/Compare 2 complementary output enable
    pub mod CC2NE {
        /// 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 {}
    }

    /// Capture/Compare 2 output Polarity
    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 {}
    }

    /// Capture/Compare 3 output enable
    pub mod CC3E {
        /// Offset (8 bits)
        pub const offset: u32 = 8;
        /// Mask (1 bit: 1 << 8)
        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 {}
    }

    /// Capture/Compare 3 output Polarity
    pub mod CC3P {
        /// 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 {}
    }

    /// Capture/Compare 3 complementary output enable
    pub mod CC3NE {
        /// 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 {}
    }

    /// Capture/Compare 3 output Polarity
    pub mod CC3NP {
        /// 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 {}
    }

    /// Capture/Compare 4 output enable
    pub mod CC4E {
        /// Offset (12 bits)
        pub const offset: u32 = 12;
        /// Mask (1 bit: 1 << 12)
        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 {}
    }

    /// Capture/Compare 3 output Polarity
    pub mod CC4P {
        /// Offset (13 bits)
        pub const offset: u32 = 13;
        /// Mask (1 bit: 1 << 13)
        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 {}
    }

    /// Capture/Compare 4 complementary output polarity
    pub mod CC4NP {
        /// Offset (15 bits)
        pub const offset: u32 = 15;
        /// Mask (1 bit: 1 << 15)
        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 {}
    }

    /// Capture/Compare 5 output enable
    pub mod CC5E {
        /// 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 {}
    }

    /// Capture/Compare 5 output polarity
    pub mod CC5P {
        /// Offset (17 bits)
        pub const offset: u32 = 17;
        /// Mask (1 bit: 1 << 17)
        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 {}
    }

    /// Capture/Compare 6 output enable
    pub mod CC6E {
        /// 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 {}
    }

    /// Capture/Compare 6 output polarity
    pub mod CC6P {
        /// 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 {}
    }
}

/// counter
pub mod CNT {

    /// counter value
    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 {}
    }

    /// UIF copy
    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 {}
    }
}

/// prescaler
pub mod PSC {

    /// Prescaler value
    pub mod PSC {
        /// 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 {}
    }
}

/// auto-reload register
pub mod ARR {

    /// Auto-reload value
    pub mod ARR {
        /// 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 {}
    }
}

/// capture/compare register 1
pub mod CCR1 {

    /// Capture/Compare 1 value
    pub mod CCR {
        /// 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 {}
    }
}

/// capture/compare register 1
pub mod CCR2 {
    pub use super::CCR1::CCR;
}

/// capture/compare register 1
pub mod CCR3 {
    pub use super::CCR1::CCR;
}

/// capture/compare register 1
pub mod CCR4 {
    pub use super::CCR1::CCR;
}

/// DMA control register
pub mod DCR {

    /// DMA burst length
    pub mod DBL {
        /// Offset (8 bits)
        pub const offset: u32 = 8;
        /// Mask (5 bits: 0b11111 << 8)
        pub const mask: u32 = 0b11111 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// DMA base address
    pub mod DBA {
        /// Offset (0 bits)
        pub const offset: u32 = 0;
        /// Mask (5 bits: 0b11111 << 0)
        pub const mask: u32 = 0b11111 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }
}

/// DMA address for full transfer
pub mod DMAR {

    /// DMA register for burst accesses
    pub mod DMAB {
        /// Offset (0 bits)
        pub const offset: u32 = 0;
        /// Mask (32 bits: 0xffffffff << 0)
        pub const mask: u32 = 0xffffffff << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }
}

/// repetition counter register
pub mod RCR {

    /// Repetition counter value
    pub mod REP {
        /// Offset (0 bits)
        pub const offset: u32 = 0;
        /// Mask (8 bits: 0xff << 0)
        pub const mask: u32 = 0xff << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }
}

/// break and dead-time register
pub mod BDTR {

    /// Dead-time generator setup
    pub mod DTG {
        /// Offset (0 bits)
        pub const offset: u32 = 0;
        /// Mask (8 bits: 0xff << 0)
        pub const mask: u32 = 0xff << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values (empty)
        pub mod RW {}
    }

    /// Lock configuration
    pub mod LOCK {
        /// 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 {}
    }

    /// Off-state selection for Idle mode
    pub mod OSSI {
        /// 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
        pub mod RW {

            /// 0b0: When inactive, OC/OCN outputs are disabled
            pub const Disabled: u32 = 0b0;

            /// 0b1: When inactive, OC/OCN outputs are forced to idle level
            pub const IdleLevel: u32 = 0b1;
        }
    }

    /// Off-state selection for Run mode
    pub mod OSSR {
        /// 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
        pub mod RW {

            /// 0b0: When inactive, OC/OCN outputs are disabled
            pub const Disabled: u32 = 0b0;

            /// 0b1: When inactive, OC/OCN outputs are enabled with their inactive level
            pub const IdleLevel: u32 = 0b1;
        }
    }

    /// Break enable
    pub mod BKE {
        /// Offset (12 bits)
        pub const offset: u32 = 12;
        /// Mask (1 bit: 1 << 12)
        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 {}
    }

    /// Break polarity
    pub mod BKP {
        /// Offset (13 bits)
        pub const offset: u32 = 13;
        /// Mask (1 bit: 1 << 13)
        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 {}
    }

    /// Automatic output enable
    pub mod AOE {
        /// Offset (14 bits)
        pub const offset: u32 = 14;
        /// Mask (1 bit: 1 << 14)
        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 {}
    }

    /// Main output enable
    pub mod MOE {
        /// Offset (15 bits)
        pub const offset: u32 = 15;
        /// Mask (1 bit: 1 << 15)
        pub const mask: u32 = 1 << offset;
        /// Read-only values (empty)
        pub mod R {}
        /// Write-only values (empty)
        pub mod W {}
        /// Read-write values
        pub mod RW {

            /// 0b0: OC/OCN are disabled or forced idle depending on OSSI
            pub const DisabledIdle: u32 = 0b0;

            /// 0b1: OC/OCN are enabled if CCxE/CCxNE are set
            pub const Enabled: u32 = 0b1;
        }
    }

    /// Break filter
    pub mod BKF {
        /// Offset (16 bits)
        pub const offset: u32 = 16;
        /// Mask (4 bits: 0b1111 << 16)
        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 {}
    }

    /// Break 2 filter
    pub mod BK2F {
        /// Offset (20 bits)
        pub const offset: u32 = 20;
        /// Mask (4 bits: 0b1111 << 20)
        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 {}
    }

    /// Break 2 enable
    pub mod BK2E {
        /// 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 {}
    }

    /// Break 2 polarity
    pub mod BK2P {
        /// Offset (25 bits)
        pub const offset: u32 = 25;
        /// Mask (1 bit: 1 << 25)
        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 {}
    }
}

/// capture/compare mode register 3 (output mode)
pub mod CCMR3_Output {

    /// Output compare 5 fast enable
    pub mod OC5FE {
        /// 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 {}
    }

    /// Output compare 5 preload enable
    pub mod OC5PE {
        /// 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 {}
    }

    /// Output compare 5 mode
    pub mod OC5M {
        /// 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 {}
    }

    /// Output compare 5 clear enable
    pub mod OC5CE {
        /// 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 {}
    }

    /// Output compare 6 fast enable
    pub mod OC6FE {
        /// 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 {}
    }

    /// Output compare 6 preload enable
    pub mod OC6PE {
        /// 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 {}
    }

    /// Output compare 6 mode
    pub mod OC6M {
        /// 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 {}
    }

    /// Output compare 6 clear enable
    pub mod OC6CE {
        /// Offset (15 bits)
        pub const offset: u32 = 15;
        /// Mask (1 bit: 1 << 15)
        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 {}
    }

    /// Output Compare 5 mode
    pub mod OC5M3 {
        /// 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 {}
    }

    /// Output Compare 6 mode
    pub mod OC6M3 {
        /// 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 {}
    }
}

/// capture/compare register 5
pub mod CCR5 {

    /// Capture/Compare 5 value
    pub mod CCR {
        /// 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 {}
    }

    /// Group Channel 5 and Channel 1
    pub mod GC5C1 {
        /// Offset (29 bits)
        pub const offset: u32 = 29;
        /// Mask (1 bit: 1 << 29)
        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 {}
    }

    /// Group Channel 5 and Channel 2
    pub mod GC5C2 {
        /// Offset (30 bits)
        pub const offset: u32 = 30;
        /// Mask (1 bit: 1 << 30)
        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 {}
    }

    /// Group Channel 5 and Channel 3
    pub mod GC5C3 {
        /// 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 {}
    }
}

/// capture/compare register 6
pub mod CRR6 {

    /// Capture/Compare 6 value
    pub mod CCR6 {
        /// 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 {}
    }
}

/// TIM1 alternate function option register 1
pub mod AF1 {

    /// BRK BKIN input enable
    pub mod BKINE {
        /// 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 {}
    }

    /// BRK COMP1 enable
    pub mod BKCMP1E {
        /// 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 {}
    }

    /// BRK COMP2 enable
    pub mod BKCMP2E {
        /// 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 {}
    }

    /// BRK dfsdm1_break\[0\] enable
    pub mod BKDF1BK0E {
        /// Offset (8 bits)
        pub const offset: u32 = 8;
        /// Mask (1 bit: 1 << 8)
        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 {}
    }

    /// BRK BKIN input polarity
    pub mod BKINP {
        /// 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 {}
    }

    /// BRK COMP1 input polarity
    pub mod BKCMP1P {
        /// 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 {}
    }

    /// BRK COMP2 input polarity
    pub mod BKCMP2P {
        /// 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 {}
    }

    /// ETR source selection
    pub mod ETRSEL {
        /// Offset (14 bits)
        pub const offset: u32 = 14;
        /// Mask (4 bits: 0b1111 << 14)
        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 {}
    }
}

/// TIM1 Alternate function odfsdm1_breakster 2
pub mod AF2 {

    /// BRK2 BKIN input enable
    pub mod BK2INE {
        /// 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 {}
    }

    /// BRK2 COMP1 enable
    pub mod BK2CMP1E {
        /// 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 {}
    }

    /// BRK2 COMP2 enable
    pub mod BK2CMP2E {
        /// 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 {}
    }

    /// BRK2 dfsdm1_break\[1\] enable
    pub mod BK2DF1BK1E {
        /// Offset (8 bits)
        pub const offset: u32 = 8;
        /// Mask (1 bit: 1 << 8)
        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 {}
    }

    /// BRK2 BKIN2 input polarity
    pub mod BK2INP {
        /// 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 {}
    }

    /// BRK2 COMP1 input polarit
    pub mod BK2CMP1P {
        /// 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 {}
    }

    /// BRK2 COMP2 input polarity
    pub mod BK2CMP2P {
        /// 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 {}
    }
}

/// TIM1 timer input selection register
pub mod TISEL {

    /// selects TI1\[0\] to TI1\[15\] input
    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 {}
    }

    /// selects TI2\[0\] to TI2\[15\] input
    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 {}
    }

    /// selects TI3\[0\] to TI3\[15\] input
    pub mod TI3SEL {
        /// Offset (16 bits)
        pub const offset: u32 = 16;
        /// Mask (4 bits: 0b1111 << 16)
        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 {}
    }

    /// selects TI4\[0\] to TI4\[15\] input
    pub mod TI4SEL {
        /// Offset (24 bits)
        pub const offset: u32 = 24;
        /// Mask (4 bits: 0b1111 << 24)
        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 {
    /// control register 1
    pub CR1: RWRegister<u32>,

    /// control register 2
    pub CR2: RWRegister<u32>,

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

    /// DMA/Interrupt enable register
    pub DIER: RWRegister<u32>,

    /// status register
    pub SR: RWRegister<u32>,

    /// event generation register
    pub EGR: WORegister<u32>,

    /// CCMR1_Output and CCMR1_Input
    /// CCMR1_Output: capture/compare mode register 1 (output mode)
    /// CCMR1_Input: capture/compare mode register 1 (input mode)
    pub CCMR1: RWRegister<u32>,

    /// CCMR2_Output and CCMR2_Input
    /// CCMR2_Output: capture/compare mode register 2 (output mode)
    /// CCMR2_Input: capture/compare mode register 2 (input mode)
    pub CCMR2: RWRegister<u32>,

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

    /// counter
    pub CNT: RWRegister<u32>,

    /// prescaler
    pub PSC: RWRegister<u32>,

    /// auto-reload register
    pub ARR: RWRegister<u32>,

    /// repetition counter register
    pub RCR: RWRegister<u32>,

    /// capture/compare register 1
    pub CCR1: RWRegister<u32>,

    /// capture/compare register 1
    pub CCR2: RWRegister<u32>,

    /// capture/compare register 1
    pub CCR3: RWRegister<u32>,

    /// capture/compare register 1
    pub CCR4: RWRegister<u32>,

    /// break and dead-time register
    pub BDTR: RWRegister<u32>,

    /// DMA control register
    pub DCR: RWRegister<u32>,

    /// DMA address for full transfer
    pub DMAR: RWRegister<u32>,

    _reserved1: [u32; 1],

    /// capture/compare mode register 3 (output mode)
    pub CCMR3_Output: RWRegister<u32>,

    /// capture/compare register 5
    pub CCR5: RWRegister<u32>,

    /// capture/compare register 6
    pub CRR6: RWRegister<u32>,

    /// TIM1 alternate function option register 1
    pub AF1: RWRegister<u32>,

    /// TIM1 Alternate function odfsdm1_breakster 2
    pub AF2: RWRegister<u32>,

    /// TIM1 timer input selection register
    pub TISEL: RWRegister<u32>,
}
pub struct ResetValues {
    pub CR1: u32,
    pub CR2: u32,
    pub SMCR: u32,
    pub DIER: u32,
    pub SR: u32,
    pub EGR: u32,
    pub CCMR1: u32,
    pub CCMR2: u32,
    pub CCER: u32,
    pub CNT: u32,
    pub PSC: u32,
    pub ARR: u32,
    pub RCR: u32,
    pub CCR1: u32,
    pub CCR2: u32,
    pub CCR3: u32,
    pub CCR4: u32,
    pub BDTR: u32,
    pub DCR: u32,
    pub DMAR: u32,
    pub CCMR3_Output: u32,
    pub CCR5: u32,
    pub CRR6: u32,
    pub AF1: u32,
    pub AF2: u32,
    pub 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 {}