📦 samueltardieu / stm32-metapac-generated

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1828#![allow(clippy::missing_safety_doc)]
                #![allow(clippy::identity_op)]
                #![allow(clippy::unnecessary_cast)]
                #![allow(clippy::erasing_op)]

# [doc = "High Resolution Timer"]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Hrtim { ptr : * mut u8 } unsafe impl Send for Hrtim { } unsafe impl Sync for Hrtim { } impl Hrtim { # [inline (always)]
pub const unsafe fn from_ptr (ptr : * mut ()) -> Self { Self { ptr : ptr as _ , } } # [inline (always)]
pub const fn as_ptr (& self) -> * mut () { self . ptr as _ } # [doc = "Master Timer Control Register"]
# [inline (always)]
pub const fn mcr (self) -> crate :: common :: Reg < regs :: Mcr , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x0usize) as _) } } # [doc = "Master Timer Interrupt Status Register"]
# [inline (always)]
pub const fn misr (self) -> crate :: common :: Reg < regs :: Misr , crate :: common :: R > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x04usize) as _) } } # [doc = "Master Timer Interrupt Clear Register"]
# [inline (always)]
pub const fn micr (self) -> crate :: common :: Reg < regs :: Micr , crate :: common :: W > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x08usize) as _) } } # [doc = "Master Timer DMA / Interrupt Enable Register"]
# [inline (always)]
pub const fn mdier (self) -> crate :: common :: Reg < regs :: Mdier , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x0cusize) as _) } } # [doc = "Master Timer Counter Register"]
# [inline (always)]
pub const fn mcntr (self) -> crate :: common :: Reg < regs :: Mcntr , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x10usize) as _) } } # [doc = "Master Timer Period Register"]
# [inline (always)]
pub const fn mper (self) -> crate :: common :: Reg < regs :: Mper , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x14usize) as _) } } # [doc = "Master Timer Repetition Register"]
# [inline (always)]
pub const fn mrep (self) -> crate :: common :: Reg < regs :: Mrep , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x18usize) as _) } } # [doc = "Master Timer Compare X Register"]
# [inline (always)]
pub const fn mcmp (self , n : usize) -> crate :: common :: Reg < regs :: Mcmpx , crate :: common :: RW > { assert ! (n < 4usize) ; unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x1cusize + ([0usize , 8usize , 12usize , 16usize]
[n]
as usize)) as _) } } # [doc = "High Resolution Timer: Timing Unit"]
# [inline (always)]
pub const fn tim (self , n : usize) -> HrtimTimx { assert ! (n < 5usize) ; unsafe { HrtimTimx :: from_ptr (self . ptr . add (0x80usize + n * 128usize) as _) } } # [doc = "High Resolution Timer: Control Register 1"]
# [inline (always)]
pub const fn cr1 (self) -> crate :: common :: Reg < regs :: HrtimCr1 , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x0380usize) as _) } } # [doc = "High Resolution Timer: Control Register 2"]
# [inline (always)]
pub const fn cr2 (self) -> crate :: common :: Reg < regs :: HrtimCr2 , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x0384usize) as _) } } # [doc = "High Resolution Timer: Interrupt Status Register"]
# [inline (always)]
pub const fn isr (self) -> crate :: common :: Reg < regs :: HrtimIsr , crate :: common :: R > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x0388usize) as _) } } # [doc = "High Resolution Timer: Interrupt Clear Register"]
# [inline (always)]
pub const fn icr (self) -> crate :: common :: Reg < regs :: HrtimIcr , crate :: common :: W > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x038cusize) as _) } } # [doc = "High Resolution Timer: Interrupt Enable Register"]
# [inline (always)]
pub const fn ier (self) -> crate :: common :: Reg < regs :: HrtimIer , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x0390usize) as _) } } # [doc = "High Resolution Timer: Output Enable Register"]
# [inline (always)]
pub const fn oenr (self) -> crate :: common :: Reg < regs :: HrtimOenr , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x0394usize) as _) } } # [doc = "High Resolution Timer: Output Disable Register"]
# [inline (always)]
pub const fn odisr (self) -> crate :: common :: Reg < regs :: HrtimOdisr , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x0398usize) as _) } } # [doc = "High Resolution Timer: Output Disable Status Register"]
# [inline (always)]
pub const fn odsr (self) -> crate :: common :: Reg < regs :: HrtimOdsr , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x039cusize) as _) } } # [doc = "High Resolution Timer: Burst Mode Control Register"]
# [inline (always)]
pub const fn bmcr (self) -> crate :: common :: Reg < regs :: HrtimBmcr , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x03a0usize) as _) } } # [doc = "High Resolution Timer: Burst Mode Trigger Register"]
# [inline (always)]
pub const fn bmtrgr (self) -> crate :: common :: Reg < regs :: HrtimBmtrgr , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x03a4usize) as _) } } # [doc = "High Resolution Timer: Burst Mode Compare Register"]
# [inline (always)]
pub const fn bmcmpr (self) -> crate :: common :: Reg < regs :: HrtimBmcmpr , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x03a8usize) as _) } } # [doc = "High Resolution Timer: Burst Mode Period Register"]
# [inline (always)]
pub const fn bmper (self) -> crate :: common :: Reg < regs :: HrtimBmper , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x03acusize) as _) } } # [doc = "High Resolution Timer: External Event Control Register 1"]
# [inline (always)]
pub const fn eecr1 (self) -> crate :: common :: Reg < regs :: HrtimEecr1 , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x03b0usize) as _) } } # [doc = "High Resolution Timer: External Event Control Register 2"]
# [inline (always)]
pub const fn eecr2 (self) -> crate :: common :: Reg < regs :: HrtimEecr2 , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x03b4usize) as _) } } # [doc = "High Resolution Timer: External Event Control Register 3"]
# [inline (always)]
pub const fn eecr3 (self) -> crate :: common :: Reg < regs :: HrtimEecr3 , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x03b8usize) as _) } } # [doc = "High Resolution Timer: ADC Trigger \\[1, 3\\]
Register"]
# [inline (always)]
pub const fn adc1r (self , n : usize) -> crate :: common :: Reg < regs :: HrtimAdc1r , crate :: common :: RW > { assert ! (n < 2usize) ; unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x03bcusize + ([0usize , 8usize]
[n]
as usize)) as _) } } # [doc = "High Resolution Timer: ADC Trigger \\[2, 4\\]
Register"]
# [inline (always)]
pub const fn adc2r (self , n : usize) -> crate :: common :: Reg < regs :: HrtimAdc2r , crate :: common :: RW > { assert ! (n < 2usize) ; unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x03c0usize + ([0usize , 8usize]
[n]
as usize)) as _) } } # [doc = "High Resolution Timer: DLL Control Register"]
# [inline (always)]
pub const fn dllcr (self) -> crate :: common :: Reg < regs :: HrtimDllcr , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x03ccusize) as _) } } # [doc = "High Resolution Timer: Fault Input Register 1"]
# [inline (always)]
pub const fn fltinr1 (self) -> crate :: common :: Reg < regs :: HrtimFltinr1 , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x03d0usize) as _) } } # [doc = "High Resolution Timer: Fault Input Register 2"]
# [inline (always)]
pub const fn fltinr2 (self) -> crate :: common :: Reg < regs :: HrtimFltinr2 , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x03d0usize) as _) } } # [doc = "High Resolution Timer: Burst DMA Master timer update Register"]
# [inline (always)]
pub const fn bdmupr (self) -> crate :: common :: Reg < regs :: HrtimBdmupr , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x03d8usize) as _) } } # [doc = "High Resolution Timer: Burst DMA Timer X update Register"]
# [inline (always)]
pub const fn bdtupr (self , n : usize) -> crate :: common :: Reg < regs :: HrtimBdtupr , crate :: common :: RW > { assert ! (n < 5usize) ; unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x03dcusize + n * 4usize) as _) } } # [doc = "High Resolution Timer: Burst DMA Data Register"]
# [inline (always)]
pub const fn bdmadr (self) -> crate :: common :: Reg < regs :: HrtimBdmadr , crate :: common :: W > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x03f0usize) as _) } } } # [doc = "High Resolution Timer: Timing Unit"]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimTimx { ptr : * mut u8 } unsafe impl Send for HrtimTimx { } unsafe impl Sync for HrtimTimx { } impl HrtimTimx { # [inline (always)]
pub const unsafe fn from_ptr (ptr : * mut ()) -> Self { Self { ptr : ptr as _ , } } # [inline (always)]
pub const fn as_ptr (& self) -> * mut () { self . ptr as _ } # [doc = "Timer X Control Register"]
# [inline (always)]
pub const fn cr (self) -> crate :: common :: Reg < regs :: Timxcr , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x0usize) as _) } } # [doc = "Timer X Interrupt Status Register"]
# [inline (always)]
pub const fn isr (self) -> crate :: common :: Reg < regs :: Timxisr , crate :: common :: R > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x04usize) as _) } } # [doc = "Timer X Interrupt Clear Register"]
# [inline (always)]
pub const fn icr (self) -> crate :: common :: Reg < regs :: Timxicr , crate :: common :: W > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x08usize) as _) } } # [doc = "Timer X DMA / Interrupt Enable Register"]
# [inline (always)]
pub const fn dier (self) -> crate :: common :: Reg < regs :: Timxdier , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x0cusize) as _) } } # [doc = "Timer X Counter Register"]
# [inline (always)]
pub const fn cnt (self) -> crate :: common :: Reg < regs :: Timxcnt , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x10usize) as _) } } # [doc = "Timer X Period Register"]
# [inline (always)]
pub const fn per (self) -> crate :: common :: Reg < regs :: Timxper , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x14usize) as _) } } # [doc = "Timer X Repetition Register"]
# [inline (always)]
pub const fn rep (self) -> crate :: common :: Reg < regs :: Timxrep , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x18usize) as _) } } # [doc = "Timer X Compare X Register"]
# [inline (always)]
pub const fn cmp (self , n : usize) -> crate :: common :: Reg < regs :: Timxcmp , crate :: common :: RW > { assert ! (n < 4usize) ; unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x1cusize + ([0usize , 8usize , 12usize , 16usize]
[n]
as usize)) as _) } } # [doc = "Timer X Compare X Compound Register"]
# [inline (always)]
pub const fn cmpc (self , n : usize) -> crate :: common :: Reg < regs :: Timxcmpc , crate :: common :: RW > { assert ! (n < 1usize) ; unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x20usize + ([0usize]
[n]
as usize)) as _) } } # [doc = "Timer X Capture X Register"]
# [inline (always)]
pub const fn cpt (self , n : usize) -> crate :: common :: Reg < regs :: Timxcpt , crate :: common :: R > { assert ! (n < 2usize) ; unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x30usize + n * 4usize) as _) } } # [doc = "Timer X Deadtime Register"]
# [inline (always)]
pub const fn dt (self) -> crate :: common :: Reg < regs :: Timxdt , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x38usize) as _) } } # [doc = "Timer X Output X Set Register"]
# [inline (always)]
pub const fn setr (self , n : usize) -> crate :: common :: Reg < regs :: Timxsetr , crate :: common :: RW > { assert ! (n < 2usize) ; unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x3cusize + ([0usize , 8usize]
[n]
as usize)) as _) } } # [doc = "Timer X Output X Reset Register"]
# [inline (always)]
pub const fn rstr (self , n : usize) -> crate :: common :: Reg < regs :: Timxrstr , crate :: common :: RW > { assert ! (n < 2usize) ; unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x40usize + ([0usize , 8usize]
[n]
as usize)) as _) } } # [doc = "Timer X External Event Filtering Register 1"]
# [inline (always)]
pub const fn eef (self , n : usize) -> crate :: common :: Reg < regs :: Timxeef , crate :: common :: RW > { assert ! (n < 2usize) ; unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x4cusize + ([0usize , 4usize]
[n]
as usize)) as _) } } # [doc = "Timer X Reset Register"]
# [inline (always)]
pub const fn rst (self) -> crate :: common :: Reg < regs :: Timxrst , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x54usize) as _) } } # [doc = "Timer X Chopper Register"]
# [inline (always)]
pub const fn chp (self) -> crate :: common :: Reg < regs :: Timxchp , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x58usize) as _) } } # [doc = "Timer X Capture X Control Register"]
# [inline (always)]
pub const fn ccr (self , n : usize) -> crate :: common :: Reg < regs :: Timxccr , crate :: common :: RW > { assert ! (n < 2usize) ; unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x5cusize + ([0usize , 4usize]
[n]
as usize)) as _) } } # [doc = "Timer X Output Register"]
# [inline (always)]
pub const fn outr (self) -> crate :: common :: Reg < regs :: Timxoutr , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x64usize) as _) } } # [doc = "Timer X Fault Register"]
# [inline (always)]
pub const fn flt (self) -> crate :: common :: Reg < regs :: Timxflt , crate :: common :: RW > { unsafe { crate :: common :: Reg :: from_ptr (self . ptr . add (0x68usize) as _) } } } pub mod regs { # [doc = "High Resolution Timer: ADC Trigger 1 Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimAdc1r (pub u32) ; impl HrtimAdc1r { # [doc = "ADC trigger X on Master Compare Y"]
# [inline (always)]
pub const fn adcmc (& self , n : usize) -> bool { assert ! (n < 4usize) ; let offs = 0usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "ADC trigger X on Master Compare Y"]
# [inline (always)]
pub fn set_adcmc (& mut self , n : usize , val : bool) { assert ! (n < 4usize) ; let offs = 0usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "ADC trigger X on Master Period"]
# [inline (always)]
pub const fn adcmper (& self) -> bool { let val = (self . 0 >> 4usize) & 0x01 ; val != 0 } # [doc = "ADC trigger X on Master Period"]
# [inline (always)]
pub fn set_adcmper (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 4usize)) | (((val as u32) & 0x01) << 4usize) ; } # [doc = "ADC trigger X on External Event Y"]
# [inline (always)]
pub const fn adceev (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 5usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "ADC trigger X on External Event Y"]
# [inline (always)]
pub fn set_adceev (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 5usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "ADC trigger X on Timer Y Compare 2"]
# [inline (always)]
pub const fn adctc2 (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 10usize + ([0usize , 5usize , 10usize , 14usize , 18usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "ADC trigger X on Timer Y Compare 2"]
# [inline (always)]
pub fn set_adctc2 (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 10usize + ([0usize , 5usize , 10usize , 14usize , 18usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "ADC trigger X on Timer Y Compare 3"]
# [inline (always)]
pub const fn adctc3 (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 11usize + ([0usize , 5usize , 10usize , 14usize , 18usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "ADC trigger X on Timer Y Compare 3"]
# [inline (always)]
pub fn set_adctc3 (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 11usize + ([0usize , 5usize , 10usize , 14usize , 18usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "ADC trigger X on Timer Y Compare 3"]
# [inline (always)]
pub const fn adctc4 (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 12usize + ([0usize , 5usize , 10usize , 14usize , 18usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "ADC trigger X on Timer Y Compare 3"]
# [inline (always)]
pub fn set_adctc4 (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 12usize + ([0usize , 5usize , 10usize , 14usize , 18usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "ADC trigger X on Timer Y Period"]
# [inline (always)]
pub const fn adctper (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 13usize + ([0usize , 5usize , 10usize , 14usize , 18usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "ADC trigger X on Timer Y Period"]
# [inline (always)]
pub fn set_adctper (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 13usize + ([0usize , 5usize , 10usize , 14usize , 18usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "ADC trigger X on Timer Y Reset"]
# [inline (always)]
pub const fn adctrst (& self , n : usize) -> bool { assert ! (n < 2usize) ; let offs = 14usize + ([0usize , 5usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "ADC trigger X on Timer Y Reset"]
# [inline (always)]
pub fn set_adctrst (& mut self , n : usize , val : bool) { assert ! (n < 2usize) ; let offs = 14usize + ([0usize , 5usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } } impl Default for HrtimAdc1r { # [inline (always)]
fn default () -> HrtimAdc1r { HrtimAdc1r (0) } } # [doc = "High Resolution Timer: ADC Trigger 2 Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimAdc2r (pub u32) ; impl HrtimAdc2r { # [doc = "ADC trigger X on Master Compare Y"]
# [inline (always)]
pub const fn adcmc (& self , n : usize) -> bool { assert ! (n < 4usize) ; let offs = 0usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "ADC trigger X on Master Compare Y"]
# [inline (always)]
pub fn set_adcmc (& mut self , n : usize , val : bool) { assert ! (n < 4usize) ; let offs = 0usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "ADC trigger X on Master Period"]
# [inline (always)]
pub const fn adcmper (& self) -> bool { let val = (self . 0 >> 4usize) & 0x01 ; val != 0 } # [doc = "ADC trigger X on Master Period"]
# [inline (always)]
pub fn set_adcmper (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 4usize)) | (((val as u32) & 0x01) << 4usize) ; } # [doc = "ADC trigger X on External Event Y"]
# [inline (always)]
pub const fn adceev (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 5usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "ADC trigger X on External Event Y"]
# [inline (always)]
pub fn set_adceev (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 5usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "ADC trigger X on Timer Y Compare 2"]
# [inline (always)]
pub const fn adctc2 (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 10usize + ([0usize , 4usize , 8usize , 13usize , 18usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "ADC trigger X on Timer Y Compare 2"]
# [inline (always)]
pub fn set_adctc2 (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 10usize + ([0usize , 4usize , 8usize , 13usize , 18usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "ADC trigger X on Timer Y Compare 3"]
# [inline (always)]
pub const fn adctc3 (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 11usize + ([0usize , 4usize , 8usize , 13usize , 18usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "ADC trigger X on Timer Y Compare 3"]
# [inline (always)]
pub fn set_adctc3 (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 11usize + ([0usize , 4usize , 8usize , 13usize , 18usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "ADC trigger X on Timer Y Compare 3"]
# [inline (always)]
pub const fn adctc4 (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 12usize + ([0usize , 4usize , 8usize , 13usize , 18usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "ADC trigger X on Timer Y Compare 3"]
# [inline (always)]
pub fn set_adctc4 (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 12usize + ([0usize , 4usize , 8usize , 13usize , 18usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "ADC trigger X on Timer Y Period"]
# [inline (always)]
pub const fn adctper (& self , n : usize) -> bool { assert ! (n < 4usize) ; let offs = 13usize + ([0usize , 4usize , 8usize , 13usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "ADC trigger X on Timer Y Period"]
# [inline (always)]
pub fn set_adctper (& mut self , n : usize , val : bool) { assert ! (n < 4usize) ; let offs = 13usize + ([0usize , 4usize , 8usize , 13usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "ADC trigger X on Timer Y Reset"]
# [inline (always)]
pub const fn adctrst (& self , n : usize) -> bool { assert ! (n < 3usize) ; let offs = 22usize + ([0usize , 5usize , 9usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "ADC trigger X on Timer Y Reset"]
# [inline (always)]
pub fn set_adctrst (& mut self , n : usize , val : bool) { assert ! (n < 3usize) ; let offs = 22usize + ([0usize , 5usize , 9usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } } impl Default for HrtimAdc2r { # [inline (always)]
fn default () -> HrtimAdc2r { HrtimAdc2r (0) } } # [doc = "High Resolution Timer: Burst DMA Data Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimBdmadr (pub u32) ; impl HrtimBdmadr { # [doc = "Burst DMA Data register"]
# [inline (always)]
pub const fn bdmadr (& self) -> u32 { let val = (self . 0 >> 0usize) & 0x7fff_ffff ; val as u32 } # [doc = "Burst DMA Data register"]
# [inline (always)]
pub fn set_bdmadr (& mut self , val : u32) { self . 0 = (self . 0 & ! (0x7fff_ffff << 0usize)) | (((val as u32) & 0x7fff_ffff) << 0usize) ; } } impl Default for HrtimBdmadr { # [inline (always)]
fn default () -> HrtimBdmadr { HrtimBdmadr (0) } } # [doc = "High Resolution Timer: Burst DMA Master timer update Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimBdmupr (pub u32) ; impl HrtimBdmupr { # [doc = "MCR register update enable"]
# [inline (always)]
pub const fn mcr (& self) -> bool { let val = (self . 0 >> 0usize) & 0x01 ; val != 0 } # [doc = "MCR register update enable"]
# [inline (always)]
pub fn set_mcr (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 0usize)) | (((val as u32) & 0x01) << 0usize) ; } # [doc = "MICR register update enable"]
# [inline (always)]
pub const fn micr (& self) -> bool { let val = (self . 0 >> 1usize) & 0x01 ; val != 0 } # [doc = "MICR register update enable"]
# [inline (always)]
pub fn set_micr (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 1usize)) | (((val as u32) & 0x01) << 1usize) ; } # [doc = "MDIER register update enable"]
# [inline (always)]
pub const fn mdier (& self) -> bool { let val = (self . 0 >> 2usize) & 0x01 ; val != 0 } # [doc = "MDIER register update enable"]
# [inline (always)]
pub fn set_mdier (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 2usize)) | (((val as u32) & 0x01) << 2usize) ; } # [doc = "MCNT register update enable"]
# [inline (always)]
pub const fn mcnt (& self) -> bool { let val = (self . 0 >> 3usize) & 0x01 ; val != 0 } # [doc = "MCNT register update enable"]
# [inline (always)]
pub fn set_mcnt (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 3usize)) | (((val as u32) & 0x01) << 3usize) ; } # [doc = "MPER register update enable"]
# [inline (always)]
pub const fn mper (& self) -> bool { let val = (self . 0 >> 4usize) & 0x01 ; val != 0 } # [doc = "MPER register update enable"]
# [inline (always)]
pub fn set_mper (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 4usize)) | (((val as u32) & 0x01) << 4usize) ; } # [doc = "MREP register update enable"]
# [inline (always)]
pub const fn mrep (& self) -> bool { let val = (self . 0 >> 5usize) & 0x01 ; val != 0 } # [doc = "MREP register update enable"]
# [inline (always)]
pub fn set_mrep (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 5usize)) | (((val as u32) & 0x01) << 5usize) ; } # [doc = "MCMP register X update enable"]
# [inline (always)]
pub const fn mcmp (& self , n : usize) -> bool { assert ! (n < 4usize) ; let offs = 6usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "MCMP register X update enable"]
# [inline (always)]
pub fn set_mcmp (& mut self , n : usize , val : bool) { assert ! (n < 4usize) ; let offs = 6usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } } impl Default for HrtimBdmupr { # [inline (always)]
fn default () -> HrtimBdmupr { HrtimBdmupr (0) } } # [doc = "High Resolution Timer: Burst DMA Master timer update Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimBdtupr (pub u32) ; impl HrtimBdtupr { # [doc = "CR register update enable"]
# [inline (always)]
pub const fn cr (& self) -> bool { let val = (self . 0 >> 0usize) & 0x01 ; val != 0 } # [doc = "CR register update enable"]
# [inline (always)]
pub fn set_cr (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 0usize)) | (((val as u32) & 0x01) << 0usize) ; } # [doc = "ICR register update enable"]
# [inline (always)]
pub const fn icr (& self) -> bool { let val = (self . 0 >> 1usize) & 0x01 ; val != 0 } # [doc = "ICR register update enable"]
# [inline (always)]
pub fn set_icr (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 1usize)) | (((val as u32) & 0x01) << 1usize) ; } # [doc = "DIER register update enable"]
# [inline (always)]
pub const fn dier (& self) -> bool { let val = (self . 0 >> 2usize) & 0x01 ; val != 0 } # [doc = "DIER register update enable"]
# [inline (always)]
pub fn set_dier (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 2usize)) | (((val as u32) & 0x01) << 2usize) ; } # [doc = "CNT register update enable"]
# [inline (always)]
pub const fn cnt (& self) -> bool { let val = (self . 0 >> 3usize) & 0x01 ; val != 0 } # [doc = "CNT register update enable"]
# [inline (always)]
pub fn set_cnt (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 3usize)) | (((val as u32) & 0x01) << 3usize) ; } # [doc = "PER register update enable"]
# [inline (always)]
pub const fn per (& self) -> bool { let val = (self . 0 >> 4usize) & 0x01 ; val != 0 } # [doc = "PER register update enable"]
# [inline (always)]
pub fn set_per (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 4usize)) | (((val as u32) & 0x01) << 4usize) ; } # [doc = "REP register update enable"]
# [inline (always)]
pub const fn rep (& self) -> bool { let val = (self . 0 >> 5usize) & 0x01 ; val != 0 } # [doc = "REP register update enable"]
# [inline (always)]
pub fn set_rep (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 5usize)) | (((val as u32) & 0x01) << 5usize) ; } # [doc = "CMP register X update enable"]
# [inline (always)]
pub const fn cmp (& self , n : usize) -> bool { assert ! (n < 4usize) ; let offs = 6usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "CMP register X update enable"]
# [inline (always)]
pub fn set_cmp (& mut self , n : usize , val : bool) { assert ! (n < 4usize) ; let offs = 6usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } } impl Default for HrtimBdtupr { # [inline (always)]
fn default () -> HrtimBdtupr { HrtimBdtupr (0) } } # [doc = "High Resolution Timer: Burst Mode Compare Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimBmcmpr (pub u32) ; impl HrtimBmcmpr { # [doc = "Burst mode compare value"]
# [inline (always)]
pub const fn bmcmp (& self) -> u16 { let val = (self . 0 >> 0usize) & 0xffff ; val as u16 } # [doc = "Burst mode compare value"]
# [inline (always)]
pub fn set_bmcmp (& mut self , val : u16) { self . 0 = (self . 0 & ! (0xffff << 0usize)) | (((val as u32) & 0xffff) << 0usize) ; } } impl Default for HrtimBmcmpr { # [inline (always)]
fn default () -> HrtimBmcmpr { HrtimBmcmpr (0) } } # [doc = "High Resolution Timer: Burst Mode Control Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimBmcr (pub u32) ; impl HrtimBmcr { # [doc = "Burst Mode Enable"]
# [inline (always)]
pub const fn bme (& self) -> bool { let val = (self . 0 >> 0usize) & 0x01 ; val != 0 } # [doc = "Burst Mode Enable"]
# [inline (always)]
pub fn set_bme (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 0usize)) | (((val as u32) & 0x01) << 0usize) ; } # [doc = "Burst Mode Operating Mode"]
# [inline (always)]
pub const fn bmom (& self) -> bool { let val = (self . 0 >> 1usize) & 0x01 ; val != 0 } # [doc = "Burst Mode Operating Mode"]
# [inline (always)]
pub fn set_bmom (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 1usize)) | (((val as u32) & 0x01) << 1usize) ; } # [doc = "Burst Mode Clock source"]
# [inline (always)]
pub const fn bmclk (& self) -> u8 { let val = (self . 0 >> 2usize) & 0x07 ; val as u8 } # [doc = "Burst Mode Clock source"]
# [inline (always)]
pub fn set_bmclk (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x07 << 2usize)) | (((val as u32) & 0x07) << 2usize) ; } # [doc = "Burst Mode Prescaler"]
# [inline (always)]
pub const fn bmprsc (& self) -> u8 { let val = (self . 0 >> 6usize) & 0x07 ; val as u8 } # [doc = "Burst Mode Prescaler"]
# [inline (always)]
pub fn set_bmprsc (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x07 << 6usize)) | (((val as u32) & 0x07) << 6usize) ; } # [doc = "Burst Mode Preload Enable"]
# [inline (always)]
pub const fn bmpren (& self) -> bool { let val = (self . 0 >> 10usize) & 0x01 ; val != 0 } # [doc = "Burst Mode Preload Enable"]
# [inline (always)]
pub fn set_bmpren (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 10usize)) | (((val as u32) & 0x01) << 10usize) ; } # [doc = "Master Timer Burst Mode"]
# [inline (always)]
pub const fn mtbm (& self) -> bool { let val = (self . 0 >> 16usize) & 0x01 ; val != 0 } # [doc = "Master Timer Burst Mode"]
# [inline (always)]
pub fn set_mtbm (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 16usize)) | (((val as u32) & 0x01) << 16usize) ; } # [doc = "Timer X Burst Mode"]
# [inline (always)]
pub const fn tbm (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 17usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Timer X Burst Mode"]
# [inline (always)]
pub fn set_tbm (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 17usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [inline (always)]
pub const fn bmstat (& self) -> bool { let val = (self . 0 >> 31usize) & 0x01 ; val != 0 } # [inline (always)]
pub fn set_bmstat (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 31usize)) | (((val as u32) & 0x01) << 31usize) ; } } impl Default for HrtimBmcr { # [inline (always)]
fn default () -> HrtimBmcr { HrtimBmcr (0) } } # [doc = "High Resolution Timer: Burst Mode Period Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimBmper (pub u32) ; impl HrtimBmper { # [doc = "Burst mode period value"]
# [inline (always)]
pub const fn bmper (& self) -> u16 { let val = (self . 0 >> 0usize) & 0xffff ; val as u16 } # [doc = "Burst mode period value"]
# [inline (always)]
pub fn set_bmper (& mut self , val : u16) { self . 0 = (self . 0 & ! (0xffff << 0usize)) | (((val as u32) & 0xffff) << 0usize) ; } } impl Default for HrtimBmper { # [inline (always)]
fn default () -> HrtimBmper { HrtimBmper (0) } } # [doc = "High Resolution Timer: Burst Mode Trigger Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimBmtrgr (pub u32) ; impl HrtimBmtrgr { # [doc = "Software start"]
# [inline (always)]
pub const fn sw (& self) -> bool { let val = (self . 0 >> 0usize) & 0x01 ; val != 0 } # [doc = "Software start"]
# [inline (always)]
pub fn set_sw (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 0usize)) | (((val as u32) & 0x01) << 0usize) ; } # [doc = "Master reset or roll-over"]
# [inline (always)]
pub const fn mstrst (& self) -> bool { let val = (self . 0 >> 1usize) & 0x01 ; val != 0 } # [doc = "Master reset or roll-over"]
# [inline (always)]
pub fn set_mstrst (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 1usize)) | (((val as u32) & 0x01) << 1usize) ; } # [doc = "Master repetition"]
# [inline (always)]
pub const fn mstrep (& self) -> bool { let val = (self . 0 >> 2usize) & 0x01 ; val != 0 } # [doc = "Master repetition"]
# [inline (always)]
pub fn set_mstrep (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 2usize)) | (((val as u32) & 0x01) << 2usize) ; } # [doc = "Master Compare X"]
# [inline (always)]
pub const fn mstcmp (& self , n : usize) -> bool { assert ! (n < 4usize) ; let offs = 3usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Master Compare X"]
# [inline (always)]
pub fn set_mstcmp (& mut self , n : usize , val : bool) { assert ! (n < 4usize) ; let offs = 3usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Timer X reset or roll-over"]
# [inline (always)]
pub const fn trst (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 7usize + ([0usize , 4usize , 8usize , 12usize , 16usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Timer X reset or roll-over"]
# [inline (always)]
pub fn set_trst (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 7usize + ([0usize , 4usize , 8usize , 12usize , 16usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Timer X repetition"]
# [inline (always)]
pub const fn trep (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 8usize + ([0usize , 4usize , 8usize , 12usize , 16usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Timer X repetition"]
# [inline (always)]
pub fn set_trep (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 8usize + ([0usize , 4usize , 8usize , 12usize , 16usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Timer X compare 1 event"]
# [inline (always)]
pub const fn tcmp1 (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 9usize + ([0usize , 4usize , 8usize , 12usize , 16usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Timer X compare 1 event"]
# [inline (always)]
pub fn set_tcmp1 (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 9usize + ([0usize , 4usize , 8usize , 12usize , 16usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Timer X compare 2 event"]
# [inline (always)]
pub const fn tcmp2 (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 10usize + ([0usize , 4usize , 8usize , 12usize , 16usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Timer X compare 2 event"]
# [inline (always)]
pub fn set_tcmp2 (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 10usize + ([0usize , 4usize , 8usize , 12usize , 16usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } } impl Default for HrtimBmtrgr { # [inline (always)]
fn default () -> HrtimBmtrgr { HrtimBmtrgr (0) } } # [doc = "High Resolution Timer: Control Register 1"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimCr1 (pub u32) ; impl HrtimCr1 { # [doc = "Master Update Disable"]
# [inline (always)]
pub const fn mudis (& self) -> bool { let val = (self . 0 >> 0usize) & 0x01 ; val != 0 } # [doc = "Master Update Disable"]
# [inline (always)]
pub fn set_mudis (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 0usize)) | (((val as u32) & 0x01) << 0usize) ; } # [doc = "Timer X Update Disable"]
# [inline (always)]
pub const fn tudis (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 1usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Timer X Update Disable"]
# [inline (always)]
pub fn set_tudis (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 1usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "ADC Trigger X Update Source"]
# [inline (always)]
pub const fn adusrc (& self , n : usize) -> u8 { assert ! (n < 4usize) ; let offs = 16usize + n * 2usize ; let val = (self . 0 >> offs) & 0x07 ; val as u8 } # [doc = "ADC Trigger X Update Source"]
# [inline (always)]
pub fn set_adusrc (& mut self , n : usize , val : u8) { assert ! (n < 4usize) ; let offs = 16usize + n * 2usize ; self . 0 = (self . 0 & ! (0x07 << offs)) | (((val as u32) & 0x07) << offs) ; } } impl Default for HrtimCr1 { # [inline (always)]
fn default () -> HrtimCr1 { HrtimCr1 (0) } } # [doc = "High Resolution Timer: Control Register 2"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimCr2 (pub u32) ; impl HrtimCr2 { # [doc = "Master Timer Software Update"]
# [inline (always)]
pub const fn mswu (& self) -> bool { let val = (self . 0 >> 0usize) & 0x01 ; val != 0 } # [doc = "Master Timer Software Update"]
# [inline (always)]
pub fn set_mswu (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 0usize)) | (((val as u32) & 0x01) << 0usize) ; } # [doc = "Timer X Software Update"]
# [inline (always)]
pub const fn tswu (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 1usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Timer X Software Update"]
# [inline (always)]
pub fn set_tswu (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 1usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Master Counter Software Reset"]
# [inline (always)]
pub const fn mrst (& self) -> bool { let val = (self . 0 >> 8usize) & 0x01 ; val != 0 } # [doc = "Master Counter Software Reset"]
# [inline (always)]
pub fn set_mrst (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 8usize)) | (((val as u32) & 0x01) << 8usize) ; } # [doc = "Timer X Counter Software Reset"]
# [inline (always)]
pub const fn trst (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 9usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Timer X Counter Software Reset"]
# [inline (always)]
pub fn set_trst (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 9usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } } impl Default for HrtimCr2 { # [inline (always)]
fn default () -> HrtimCr2 { HrtimCr2 (0) } } # [doc = "High Resolution Timer: DLL Control Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimDllcr (pub u32) ; impl HrtimDllcr { # [doc = "DLL Calibration Start"]
# [inline (always)]
pub const fn cal (& self) -> bool { let val = (self . 0 >> 0usize) & 0x01 ; val != 0 } # [doc = "DLL Calibration Start"]
# [inline (always)]
pub fn set_cal (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 0usize)) | (((val as u32) & 0x01) << 0usize) ; } # [doc = "DLL Calibration Enable"]
# [inline (always)]
pub const fn calen (& self) -> bool { let val = (self . 0 >> 1usize) & 0x01 ; val != 0 } # [doc = "DLL Calibration Enable"]
# [inline (always)]
pub fn set_calen (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 1usize)) | (((val as u32) & 0x01) << 1usize) ; } # [doc = "DLL Calibration Rate"]
# [inline (always)]
pub const fn calrte (& self) -> u8 { let val = (self . 0 >> 2usize) & 0x03 ; val as u8 } # [doc = "DLL Calibration Rate"]
# [inline (always)]
pub fn set_calrte (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x03 << 2usize)) | (((val as u32) & 0x03) << 2usize) ; } } impl Default for HrtimDllcr { # [inline (always)]
fn default () -> HrtimDllcr { HrtimDllcr (0) } } # [doc = "High Resolution Timer: External Events Control Register 1"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimEecr1 (pub u32) ; impl HrtimEecr1 { # [doc = "External Event X Source"]
# [inline (always)]
pub const fn eesrc (& self , n : usize) -> u8 { assert ! (n < 5usize) ; let offs = 0usize + ([0usize , 6usize , 12usize , 18usize , 24usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x03 ; val as u8 } # [doc = "External Event X Source"]
# [inline (always)]
pub fn set_eesrc (& mut self , n : usize , val : u8) { assert ! (n < 5usize) ; let offs = 0usize + ([0usize , 6usize , 12usize , 18usize , 24usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x03 << offs)) | (((val as u32) & 0x03) << offs) ; } # [doc = "External Event X Polarity"]
# [inline (always)]
pub const fn eepol (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 2usize + ([0usize , 6usize , 12usize , 18usize , 24usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "External Event X Polarity"]
# [inline (always)]
pub fn set_eepol (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 2usize + ([0usize , 6usize , 12usize , 18usize , 24usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "External Event X Sensitivity"]
# [inline (always)]
pub const fn eesns (& self , n : usize) -> u8 { assert ! (n < 5usize) ; let offs = 3usize + ([0usize , 6usize , 12usize , 18usize , 24usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x03 ; val as u8 } # [doc = "External Event X Sensitivity"]
# [inline (always)]
pub fn set_eesns (& mut self , n : usize , val : u8) { assert ! (n < 5usize) ; let offs = 3usize + ([0usize , 6usize , 12usize , 18usize , 24usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x03 << offs)) | (((val as u32) & 0x03) << offs) ; } # [doc = "External Event X Fast Mode"]
# [inline (always)]
pub const fn eefast (& self , n : usize) -> u8 { assert ! (n < 5usize) ; let offs = 5usize + ([0usize , 6usize , 12usize , 18usize , 24usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x03 ; val as u8 } # [doc = "External Event X Fast Mode"]
# [inline (always)]
pub fn set_eefast (& mut self , n : usize , val : u8) { assert ! (n < 5usize) ; let offs = 5usize + ([0usize , 6usize , 12usize , 18usize , 24usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x03 << offs)) | (((val as u32) & 0x03) << offs) ; } } impl Default for HrtimEecr1 { # [inline (always)]
fn default () -> HrtimEecr1 { HrtimEecr1 (0) } } # [doc = "High Resolution Timer: External Events Control Register 2"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimEecr2 (pub u32) ; impl HrtimEecr2 { # [doc = "External Event X Source"]
# [inline (always)]
pub const fn eesrc (& self , n : usize) -> u8 { assert ! (n < 5usize) ; let offs = 0usize + ([0usize , 6usize , 12usize , 18usize , 24usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x03 ; val as u8 } # [doc = "External Event X Source"]
# [inline (always)]
pub fn set_eesrc (& mut self , n : usize , val : u8) { assert ! (n < 5usize) ; let offs = 0usize + ([0usize , 6usize , 12usize , 18usize , 24usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x03 << offs)) | (((val as u32) & 0x03) << offs) ; } # [doc = "External Event X Polarity"]
# [inline (always)]
pub const fn eepol (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 2usize + ([0usize , 6usize , 12usize , 18usize , 24usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "External Event X Polarity"]
# [inline (always)]
pub fn set_eepol (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 2usize + ([0usize , 6usize , 12usize , 18usize , 24usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "External Event X Sensitivity"]
# [inline (always)]
pub const fn eesns (& self , n : usize) -> u8 { assert ! (n < 5usize) ; let offs = 3usize + ([0usize , 6usize , 12usize , 18usize , 24usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x03 ; val as u8 } # [doc = "External Event X Sensitivity"]
# [inline (always)]
pub fn set_eesns (& mut self , n : usize , val : u8) { assert ! (n < 5usize) ; let offs = 3usize + ([0usize , 6usize , 12usize , 18usize , 24usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x03 << offs)) | (((val as u32) & 0x03) << offs) ; } } impl Default for HrtimEecr2 { # [inline (always)]
fn default () -> HrtimEecr2 { HrtimEecr2 (0) } } # [doc = "High Resolution Timer: External Events Control Register 2"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimEecr3 (pub u32) ; impl HrtimEecr3 { # [doc = "External Event X filter"]
# [inline (always)]
pub const fn eef (& self , n : usize) -> u8 { assert ! (n < 5usize) ; let offs = 0usize + ([0usize , 6usize , 12usize , 18usize , 24usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x07 ; val as u8 } # [doc = "External Event X filter"]
# [inline (always)]
pub fn set_eef (& mut self , n : usize , val : u8) { assert ! (n < 5usize) ; let offs = 0usize + ([0usize , 6usize , 12usize , 18usize , 24usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x07 << offs)) | (((val as u32) & 0x07) << offs) ; } # [doc = "External Event Sampling Clock Division"]
# [inline (always)]
pub const fn eevsd (& self) -> u8 { let val = (self . 0 >> 30usize) & 0x03 ; val as u8 } # [doc = "External Event Sampling Clock Division"]
# [inline (always)]
pub fn set_eevsd (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x03 << 30usize)) | (((val as u32) & 0x03) << 30usize) ; } } impl Default for HrtimEecr3 { # [inline (always)]
fn default () -> HrtimEecr3 { HrtimEecr3 (0) } } # [doc = "High Resolution Timer: Fault Input Register 1"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimFltinr1 (pub u32) ; impl HrtimFltinr1 { # [doc = "Fault X enable"]
# [inline (always)]
pub const fn flte (& self , n : usize) -> bool { assert ! (n < 4usize) ; let offs = 0usize + ([0usize , 8usize , 16usize , 24usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Fault X enable"]
# [inline (always)]
pub fn set_flte (& mut self , n : usize , val : bool) { assert ! (n < 4usize) ; let offs = 0usize + ([0usize , 8usize , 16usize , 24usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Fault X polarity"]
# [inline (always)]
pub const fn fltp (& self , n : usize) -> bool { assert ! (n < 4usize) ; let offs = 1usize + ([0usize , 8usize , 16usize , 24usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Fault X polarity"]
# [inline (always)]
pub fn set_fltp (& mut self , n : usize , val : bool) { assert ! (n < 4usize) ; let offs = 1usize + ([0usize , 8usize , 16usize , 24usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Fault X source"]
# [inline (always)]
pub const fn fltsrc (& self , n : usize) -> bool { assert ! (n < 4usize) ; let offs = 2usize + ([0usize , 8usize , 16usize , 24usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Fault X source"]
# [inline (always)]
pub fn set_fltsrc (& mut self , n : usize , val : bool) { assert ! (n < 4usize) ; let offs = 2usize + ([0usize , 8usize , 16usize , 24usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Fault X filter"]
# [inline (always)]
pub const fn fltf (& self , n : usize) -> u8 { assert ! (n < 4usize) ; let offs = 3usize + ([0usize , 8usize , 16usize , 24usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x0f ; val as u8 } # [doc = "Fault X filter"]
# [inline (always)]
pub fn set_fltf (& mut self , n : usize , val : u8) { assert ! (n < 4usize) ; let offs = 3usize + ([0usize , 8usize , 16usize , 24usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x0f << offs)) | (((val as u32) & 0x0f) << offs) ; } # [doc = "Fault X Lock"]
# [inline (always)]
pub const fn fltlck (& self , n : usize) -> bool { assert ! (n < 4usize) ; let offs = 7usize + ([0usize , 8usize , 16usize , 24usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Fault X Lock"]
# [inline (always)]
pub fn set_fltlck (& mut self , n : usize , val : bool) { assert ! (n < 4usize) ; let offs = 7usize + ([0usize , 8usize , 16usize , 24usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } } impl Default for HrtimFltinr1 { # [inline (always)]
fn default () -> HrtimFltinr1 { HrtimFltinr1 (0) } } # [doc = "High Resolution Timer: Fault Input Register 2"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimFltinr2 (pub u32) ; impl HrtimFltinr2 { # [doc = "Fault X enable"]
# [inline (always)]
pub const fn flte (& self , n : usize) -> bool { assert ! (n < 1usize) ; let offs = 0usize + ([0usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Fault X enable"]
# [inline (always)]
pub fn set_flte (& mut self , n : usize , val : bool) { assert ! (n < 1usize) ; let offs = 0usize + ([0usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Fault X polarity"]
# [inline (always)]
pub const fn fltp (& self , n : usize) -> bool { assert ! (n < 1usize) ; let offs = 1usize + ([0usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Fault X polarity"]
# [inline (always)]
pub fn set_fltp (& mut self , n : usize , val : bool) { assert ! (n < 1usize) ; let offs = 1usize + ([0usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Fault X source"]
# [inline (always)]
pub const fn fltsrc (& self , n : usize) -> bool { assert ! (n < 1usize) ; let offs = 2usize + ([0usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Fault X source"]
# [inline (always)]
pub fn set_fltsrc (& mut self , n : usize , val : bool) { assert ! (n < 1usize) ; let offs = 2usize + ([0usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Fault X filter"]
# [inline (always)]
pub const fn fltf (& self , n : usize) -> u8 { assert ! (n < 1usize) ; let offs = 3usize + ([0usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x0f ; val as u8 } # [doc = "Fault X filter"]
# [inline (always)]
pub fn set_fltf (& mut self , n : usize , val : u8) { assert ! (n < 1usize) ; let offs = 3usize + ([0usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x0f << offs)) | (((val as u32) & 0x0f) << offs) ; } # [doc = "Fault X Lock"]
# [inline (always)]
pub const fn fltlck (& self , n : usize) -> bool { assert ! (n < 1usize) ; let offs = 7usize + ([0usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Fault X Lock"]
# [inline (always)]
pub fn set_fltlck (& mut self , n : usize , val : bool) { assert ! (n < 1usize) ; let offs = 7usize + ([0usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Fault Sampling clock division"]
# [inline (always)]
pub const fn fltsd (& self) -> u8 { let val = (self . 0 >> 24usize) & 0x03 ; val as u8 } # [doc = "Fault Sampling clock division"]
# [inline (always)]
pub fn set_fltsd (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x03 << 24usize)) | (((val as u32) & 0x03) << 24usize) ; } } impl Default for HrtimFltinr2 { # [inline (always)]
fn default () -> HrtimFltinr2 { HrtimFltinr2 (0) } } # [doc = "High Resolution Timer: Interrupt Clear Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimIcr (pub u32) ; impl HrtimIcr { # [doc = "Fault X Interrupt Flag Clear"]
# [inline (always)]
pub const fn flt (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 0usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Fault X Interrupt Flag Clear"]
# [inline (always)]
pub fn set_flt (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 0usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "System Fault Interrupt Flag Clear"]
# [inline (always)]
pub const fn sysflt (& self) -> bool { let val = (self . 0 >> 5usize) & 0x01 ; val != 0 } # [doc = "System Fault Interrupt Flag Clear"]
# [inline (always)]
pub fn set_sysflt (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 5usize)) | (((val as u32) & 0x01) << 5usize) ; } # [doc = "DLL Ready Interrupt Flag Clear"]
# [inline (always)]
pub const fn dllrdy (& self) -> bool { let val = (self . 0 >> 16usize) & 0x01 ; val != 0 } # [doc = "DLL Ready Interrupt Flag Clear"]
# [inline (always)]
pub fn set_dllrdy (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 16usize)) | (((val as u32) & 0x01) << 16usize) ; } # [doc = "Burst Mode Period Interrupt Flag Clear"]
# [inline (always)]
pub const fn bmper (& self) -> bool { let val = (self . 0 >> 17usize) & 0x01 ; val != 0 } # [doc = "Burst Mode Period Interrupt Flag Clear"]
# [inline (always)]
pub fn set_bmper (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 17usize)) | (((val as u32) & 0x01) << 17usize) ; } } impl Default for HrtimIcr { # [inline (always)]
fn default () -> HrtimIcr { HrtimIcr (0) } } # [doc = "High Resolution Timer: Interrupt Enable Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimIer (pub u32) ; impl HrtimIer { # [doc = "Fault X Interrupt Flag Enable"]
# [inline (always)]
pub const fn flt (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 0usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Fault X Interrupt Flag Enable"]
# [inline (always)]
pub fn set_flt (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 0usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "System Fault Interrupt Flag Enable"]
# [inline (always)]
pub const fn sysflt (& self) -> bool { let val = (self . 0 >> 5usize) & 0x01 ; val != 0 } # [doc = "System Fault Interrupt Flag Enable"]
# [inline (always)]
pub fn set_sysflt (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 5usize)) | (((val as u32) & 0x01) << 5usize) ; } # [doc = "DLL Ready Interrupt Flag Enable"]
# [inline (always)]
pub const fn dllrdy (& self) -> bool { let val = (self . 0 >> 16usize) & 0x01 ; val != 0 } # [doc = "DLL Ready Interrupt Flag Enable"]
# [inline (always)]
pub fn set_dllrdy (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 16usize)) | (((val as u32) & 0x01) << 16usize) ; } # [doc = "Burst Mode Period Interrupt Flag Enable"]
# [inline (always)]
pub const fn bmper (& self) -> bool { let val = (self . 0 >> 17usize) & 0x01 ; val != 0 } # [doc = "Burst Mode Period Interrupt Flag Enable"]
# [inline (always)]
pub fn set_bmper (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 17usize)) | (((val as u32) & 0x01) << 17usize) ; } } impl Default for HrtimIer { # [inline (always)]
fn default () -> HrtimIer { HrtimIer (0) } } # [doc = "High Resolution Timer: Interrupt Status Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimIsr (pub u32) ; impl HrtimIsr { # [doc = "Fault X Interrupt Flag"]
# [inline (always)]
pub const fn flt (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 0usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Fault X Interrupt Flag"]
# [inline (always)]
pub fn set_flt (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 0usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "System Fault Interrupt Flag"]
# [inline (always)]
pub const fn sysflt (& self) -> bool { let val = (self . 0 >> 5usize) & 0x01 ; val != 0 } # [doc = "System Fault Interrupt Flag"]
# [inline (always)]
pub fn set_sysflt (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 5usize)) | (((val as u32) & 0x01) << 5usize) ; } # [doc = "DLL Ready Interrupt Flag"]
# [inline (always)]
pub const fn dllrdy (& self) -> bool { let val = (self . 0 >> 16usize) & 0x01 ; val != 0 } # [doc = "DLL Ready Interrupt Flag"]
# [inline (always)]
pub fn set_dllrdy (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 16usize)) | (((val as u32) & 0x01) << 16usize) ; } # [doc = "Burst Mode Period Interrupt Flag"]
# [inline (always)]
pub const fn bmper (& self) -> bool { let val = (self . 0 >> 17usize) & 0x01 ; val != 0 } # [doc = "Burst Mode Period Interrupt Flag"]
# [inline (always)]
pub fn set_bmper (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 17usize)) | (((val as u32) & 0x01) << 17usize) ; } } impl Default for HrtimIsr { # [inline (always)]
fn default () -> HrtimIsr { HrtimIsr (0) } } # [doc = "High Resolution Timer: Output Disable Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimOdisr (pub u32) ; impl HrtimOdisr { # [doc = "Timer X Output Disable"]
# [inline (always)]
pub const fn t1odis (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 0usize + ([0usize , 2usize , 4usize , 6usize , 8usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Timer X Output Disable"]
# [inline (always)]
pub fn set_t1odis (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 0usize + ([0usize , 2usize , 4usize , 6usize , 8usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Timer X Complementary Output Disable"]
# [inline (always)]
pub const fn t2odis (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 1usize + ([0usize , 2usize , 4usize , 6usize , 8usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Timer X Complementary Output Disable"]
# [inline (always)]
pub fn set_t2odis (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 1usize + ([0usize , 2usize , 4usize , 6usize , 8usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } } impl Default for HrtimOdisr { # [inline (always)]
fn default () -> HrtimOdisr { HrtimOdisr (0) } } # [doc = "High Resolution Timer: Output Disable Status Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimOdsr (pub u32) ; impl HrtimOdsr { # [doc = "Timer X Output Disable Status"]
# [inline (always)]
pub const fn t1odis (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 0usize + ([0usize , 2usize , 4usize , 6usize , 8usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Timer X Output Disable Status"]
# [inline (always)]
pub fn set_t1odis (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 0usize + ([0usize , 2usize , 4usize , 6usize , 8usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Timer X Complementary Output Disable Status"]
# [inline (always)]
pub const fn t2odis (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 1usize + ([0usize , 2usize , 4usize , 6usize , 8usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Timer X Complementary Output Disable Status"]
# [inline (always)]
pub fn set_t2odis (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 1usize + ([0usize , 2usize , 4usize , 6usize , 8usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } } impl Default for HrtimOdsr { # [inline (always)]
fn default () -> HrtimOdsr { HrtimOdsr (0) } } # [doc = "High Resolution Timer: Output Enable Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct HrtimOenr (pub u32) ; impl HrtimOenr { # [doc = "Timer X Output Enable"]
# [inline (always)]
pub const fn t1oen (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 0usize + ([0usize , 2usize , 4usize , 6usize , 8usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Timer X Output Enable"]
# [inline (always)]
pub fn set_t1oen (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 0usize + ([0usize , 2usize , 4usize , 6usize , 8usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Timer X Complementary Output Enable"]
# [inline (always)]
pub const fn t2oen (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 1usize + ([0usize , 2usize , 4usize , 6usize , 8usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Timer X Complementary Output Enable"]
# [inline (always)]
pub fn set_t2oen (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 1usize + ([0usize , 2usize , 4usize , 6usize , 8usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } } impl Default for HrtimOenr { # [inline (always)]
fn default () -> HrtimOenr { HrtimOenr (0) } } # [doc = "Master Timer Compare X Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Mcmpx (pub u32) ; impl Mcmpx { # [doc = "Master Timer Compare X value"]
# [inline (always)]
pub const fn mcmp (& self) -> u16 { let val = (self . 0 >> 0usize) & 0xffff ; val as u16 } # [doc = "Master Timer Compare X value"]
# [inline (always)]
pub fn set_mcmp (& mut self , val : u16) { self . 0 = (self . 0 & ! (0xffff << 0usize)) | (((val as u32) & 0xffff) << 0usize) ; } } impl Default for Mcmpx { # [inline (always)]
fn default () -> Mcmpx { Mcmpx (0) } } # [doc = "Master Timer Counter Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Mcntr (pub u32) ; impl Mcntr { # [doc = "Counter value"]
# [inline (always)]
pub const fn mcnt (& self) -> u16 { let val = (self . 0 >> 0usize) & 0xffff ; val as u16 } # [doc = "Counter value"]
# [inline (always)]
pub fn set_mcnt (& mut self , val : u16) { self . 0 = (self . 0 & ! (0xffff << 0usize)) | (((val as u32) & 0xffff) << 0usize) ; } } impl Default for Mcntr { # [inline (always)]
fn default () -> Mcntr { Mcntr (0) } } # [doc = "Master Timer Control Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Mcr (pub u32) ; impl Mcr { # [doc = "HRTIM Master Clock prescaler"]
# [inline (always)]
pub const fn ckpsc (& self) -> u8 { let val = (self . 0 >> 0usize) & 0x07 ; val as u8 } # [doc = "HRTIM Master Clock prescaler"]
# [inline (always)]
pub fn set_ckpsc (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x07 << 0usize)) | (((val as u32) & 0x07) << 0usize) ; } # [doc = "Master Continuous mode"]
# [inline (always)]
pub const fn cont (& self) -> bool { let val = (self . 0 >> 3usize) & 0x01 ; val != 0 } # [doc = "Master Continuous mode"]
# [inline (always)]
pub fn set_cont (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 3usize)) | (((val as u32) & 0x01) << 3usize) ; } # [doc = "Master Re-triggerable mode"]
# [inline (always)]
pub const fn retrig (& self) -> bool { let val = (self . 0 >> 4usize) & 0x01 ; val != 0 } # [doc = "Master Re-triggerable mode"]
# [inline (always)]
pub fn set_retrig (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 4usize)) | (((val as u32) & 0x01) << 4usize) ; } # [doc = "Half mode enable"]
# [inline (always)]
pub const fn half (& self) -> bool { let val = (self . 0 >> 5usize) & 0x01 ; val != 0 } # [doc = "Half mode enable"]
# [inline (always)]
pub fn set_half (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 5usize)) | (((val as u32) & 0x01) << 5usize) ; } # [doc = "Synchronization input"]
# [inline (always)]
pub const fn syncin (& self) -> super :: vals :: Syncin { let val = (self . 0 >> 8usize) & 0x03 ; super :: vals :: Syncin :: from_bits (val as u8) } # [doc = "Synchronization input"]
# [inline (always)]
pub fn set_syncin (& mut self , val : super :: vals :: Syncin) { self . 0 = (self . 0 & ! (0x03 << 8usize)) | (((val . to_bits () as u32) & 0x03) << 8usize) ; } # [doc = "Synchronization Resets Master"]
# [inline (always)]
pub const fn syncrstm (& self) -> bool { let val = (self . 0 >> 10usize) & 0x01 ; val != 0 } # [doc = "Synchronization Resets Master"]
# [inline (always)]
pub fn set_syncrstm (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 10usize)) | (((val as u32) & 0x01) << 10usize) ; } # [doc = "Synchronization Starts Master"]
# [inline (always)]
pub const fn syncstrtm (& self) -> bool { let val = (self . 0 >> 11usize) & 0x01 ; val != 0 } # [doc = "Synchronization Starts Master"]
# [inline (always)]
pub fn set_syncstrtm (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 11usize)) | (((val as u32) & 0x01) << 11usize) ; } # [doc = "Synchronization output"]
# [inline (always)]
pub const fn syncout (& self) -> super :: vals :: Syncout { let val = (self . 0 >> 12usize) & 0x03 ; super :: vals :: Syncout :: from_bits (val as u8) } # [doc = "Synchronization output"]
# [inline (always)]
pub fn set_syncout (& mut self , val : super :: vals :: Syncout) { self . 0 = (self . 0 & ! (0x03 << 12usize)) | (((val . to_bits () as u32) & 0x03) << 12usize) ; } # [doc = "Synchronization source"]
# [inline (always)]
pub const fn syncsrc (& self) -> super :: vals :: Syncsrc { let val = (self . 0 >> 14usize) & 0x03 ; super :: vals :: Syncsrc :: from_bits (val as u8) } # [doc = "Synchronization source"]
# [inline (always)]
pub fn set_syncsrc (& mut self , val : super :: vals :: Syncsrc) { self . 0 = (self . 0 & ! (0x03 << 14usize)) | (((val . to_bits () as u32) & 0x03) << 14usize) ; } # [doc = "Master Counter enable"]
# [inline (always)]
pub const fn mcen (& self) -> bool { let val = (self . 0 >> 16usize) & 0x01 ; val != 0 } # [doc = "Master Counter enable"]
# [inline (always)]
pub fn set_mcen (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 16usize)) | (((val as u32) & 0x01) << 16usize) ; } # [doc = "Timer X counter enable"]
# [inline (always)]
pub const fn tcen (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 17usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Timer X counter enable"]
# [inline (always)]
pub fn set_tcen (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 17usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "AC Synchronization"]
# [inline (always)]
pub const fn dacsync (& self) -> super :: vals :: Dacsync { let val = (self . 0 >> 25usize) & 0x03 ; super :: vals :: Dacsync :: from_bits (val as u8) } # [doc = "AC Synchronization"]
# [inline (always)]
pub fn set_dacsync (& mut self , val : super :: vals :: Dacsync) { self . 0 = (self . 0 & ! (0x03 << 25usize)) | (((val . to_bits () as u32) & 0x03) << 25usize) ; } # [doc = "Preload enable"]
# [inline (always)]
pub const fn preen (& self) -> bool { let val = (self . 0 >> 27usize) & 0x01 ; val != 0 } # [doc = "Preload enable"]
# [inline (always)]
pub fn set_preen (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 27usize)) | (((val as u32) & 0x01) << 27usize) ; } # [doc = "Master Timer Repetition update"]
# [inline (always)]
pub const fn mrepu (& self) -> bool { let val = (self . 0 >> 29usize) & 0x01 ; val != 0 } # [doc = "Master Timer Repetition update"]
# [inline (always)]
pub fn set_mrepu (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 29usize)) | (((val as u32) & 0x01) << 29usize) ; } # [doc = "Burst DMA Update"]
# [inline (always)]
pub const fn brstdma (& self) -> super :: vals :: Brstdma { let val = (self . 0 >> 30usize) & 0x03 ; super :: vals :: Brstdma :: from_bits (val as u8) } # [doc = "Burst DMA Update"]
# [inline (always)]
pub fn set_brstdma (& mut self , val : super :: vals :: Brstdma) { self . 0 = (self . 0 & ! (0x03 << 30usize)) | (((val . to_bits () as u32) & 0x03) << 30usize) ; } } impl Default for Mcr { # [inline (always)]
fn default () -> Mcr { Mcr (0) } } # [doc = "Master Timer DMA / Interrupt Enable Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Mdier (pub u32) ; impl Mdier { # [doc = "Master Compare X Interrupt Enable"]
# [inline (always)]
pub const fn mcmpie (& self , n : usize) -> bool { assert ! (n < 4usize) ; let offs = 0usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Master Compare X Interrupt Enable"]
# [inline (always)]
pub fn set_mcmpie (& mut self , n : usize , val : bool) { assert ! (n < 4usize) ; let offs = 0usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Master Repetition Interrupt Enable"]
# [inline (always)]
pub const fn mrepie (& self) -> bool { let val = (self . 0 >> 4usize) & 0x01 ; val != 0 } # [doc = "Master Repetition Interrupt Enable"]
# [inline (always)]
pub fn set_mrepie (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 4usize)) | (((val as u32) & 0x01) << 4usize) ; } # [doc = "Sync Input Interrupt Enable"]
# [inline (always)]
pub const fn syncie (& self) -> bool { let val = (self . 0 >> 5usize) & 0x01 ; val != 0 } # [doc = "Sync Input Interrupt Enable"]
# [inline (always)]
pub fn set_syncie (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 5usize)) | (((val as u32) & 0x01) << 5usize) ; } # [doc = "Master Update Interrupt Enable"]
# [inline (always)]
pub const fn mupdie (& self) -> bool { let val = (self . 0 >> 6usize) & 0x01 ; val != 0 } # [doc = "Master Update Interrupt Enable"]
# [inline (always)]
pub fn set_mupdie (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 6usize)) | (((val as u32) & 0x01) << 6usize) ; } # [doc = "Master Compare X DMA request Enable"]
# [inline (always)]
pub const fn mcmpde (& self , n : usize) -> bool { assert ! (n < 4usize) ; let offs = 16usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Master Compare X DMA request Enable"]
# [inline (always)]
pub fn set_mcmpde (& mut self , n : usize , val : bool) { assert ! (n < 4usize) ; let offs = 16usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Master Repetition DMA request Enable"]
# [inline (always)]
pub const fn mrepde (& self) -> bool { let val = (self . 0 >> 20usize) & 0x01 ; val != 0 } # [doc = "Master Repetition DMA request Enable"]
# [inline (always)]
pub fn set_mrepde (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 20usize)) | (((val as u32) & 0x01) << 20usize) ; } # [doc = "Sync Input DMA request Enable"]
# [inline (always)]
pub const fn syncde (& self) -> bool { let val = (self . 0 >> 21usize) & 0x01 ; val != 0 } # [doc = "Sync Input DMA request Enable"]
# [inline (always)]
pub fn set_syncde (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 21usize)) | (((val as u32) & 0x01) << 21usize) ; } # [doc = "Master Update DMA request Enable"]
# [inline (always)]
pub const fn mupdde (& self) -> bool { let val = (self . 0 >> 22usize) & 0x01 ; val != 0 } # [doc = "Master Update DMA request Enable"]
# [inline (always)]
pub fn set_mupdde (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 22usize)) | (((val as u32) & 0x01) << 22usize) ; } } impl Default for Mdier { # [inline (always)]
fn default () -> Mdier { Mdier (0) } } # [doc = "Master Timer Interrupt Clear Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Micr (pub u32) ; impl Micr { # [doc = "Master Compare X Interrupt flag clear"]
# [inline (always)]
pub const fn mcmpc (& self , n : usize) -> bool { assert ! (n < 4usize) ; let offs = 0usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Master Compare X Interrupt flag clear"]
# [inline (always)]
pub fn set_mcmpc (& mut self , n : usize , val : bool) { assert ! (n < 4usize) ; let offs = 0usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Repetition Interrupt flag clear"]
# [inline (always)]
pub const fn mrepc (& self) -> bool { let val = (self . 0 >> 4usize) & 0x01 ; val != 0 } # [doc = "Repetition Interrupt flag clear"]
# [inline (always)]
pub fn set_mrepc (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 4usize)) | (((val as u32) & 0x01) << 4usize) ; } # [doc = "Sync Input Interrupt flag clear"]
# [inline (always)]
pub const fn syncc (& self) -> bool { let val = (self . 0 >> 5usize) & 0x01 ; val != 0 } # [doc = "Sync Input Interrupt flag clear"]
# [inline (always)]
pub fn set_syncc (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 5usize)) | (((val as u32) & 0x01) << 5usize) ; } # [doc = "Master update Interrupt flag clear"]
# [inline (always)]
pub const fn mupdc (& self) -> bool { let val = (self . 0 >> 6usize) & 0x01 ; val != 0 } # [doc = "Master update Interrupt flag clear"]
# [inline (always)]
pub fn set_mupdc (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 6usize)) | (((val as u32) & 0x01) << 6usize) ; } } impl Default for Micr { # [inline (always)]
fn default () -> Micr { Micr (0) } } # [doc = "Master Timer Interrupt Status Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Misr (pub u32) ; impl Misr { # [doc = "Master Compare X Interrupt Flag"]
# [inline (always)]
pub const fn mcmp (& self , n : usize) -> bool { assert ! (n < 4usize) ; let offs = 0usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Master Compare X Interrupt Flag"]
# [inline (always)]
pub fn set_mcmp (& mut self , n : usize , val : bool) { assert ! (n < 4usize) ; let offs = 0usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Master Repetition Interrupt Flag"]
# [inline (always)]
pub const fn mrep (& self) -> bool { let val = (self . 0 >> 4usize) & 0x01 ; val != 0 } # [doc = "Master Repetition Interrupt Flag"]
# [inline (always)]
pub fn set_mrep (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 4usize)) | (((val as u32) & 0x01) << 4usize) ; } # [doc = "Sync Input Interrupt Flag"]
# [inline (always)]
pub const fn sync (& self) -> bool { let val = (self . 0 >> 5usize) & 0x01 ; val != 0 } # [doc = "Sync Input Interrupt Flag"]
# [inline (always)]
pub fn set_sync (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 5usize)) | (((val as u32) & 0x01) << 5usize) ; } # [doc = "Master Update Interrupt Flag"]
# [inline (always)]
pub const fn mupd (& self) -> bool { let val = (self . 0 >> 6usize) & 0x01 ; val != 0 } # [doc = "Master Update Interrupt Flag"]
# [inline (always)]
pub fn set_mupd (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 6usize)) | (((val as u32) & 0x01) << 6usize) ; } } impl Default for Misr { # [inline (always)]
fn default () -> Misr { Misr (0) } } # [doc = "Master Timer Period Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Mper (pub u32) ; impl Mper { # [doc = "Master Timer Period value"]
# [inline (always)]
pub const fn mper (& self) -> u16 { let val = (self . 0 >> 0usize) & 0xffff ; val as u16 } # [doc = "Master Timer Period value"]
# [inline (always)]
pub fn set_mper (& mut self , val : u16) { self . 0 = (self . 0 & ! (0xffff << 0usize)) | (((val as u32) & 0xffff) << 0usize) ; } } impl Default for Mper { # [inline (always)]
fn default () -> Mper { Mper (0) } } # [doc = "Master Timer Repetition Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Mrep (pub u32) ; impl Mrep { # [doc = "Master Timer Repetition counter value"]
# [inline (always)]
pub const fn mrep (& self) -> u8 { let val = (self . 0 >> 0usize) & 0xff ; val as u8 } # [doc = "Master Timer Repetition counter value"]
# [inline (always)]
pub fn set_mrep (& mut self , val : u8) { self . 0 = (self . 0 & ! (0xff << 0usize)) | (((val as u32) & 0xff) << 0usize) ; } } impl Default for Mrep { # [inline (always)]
fn default () -> Mrep { Mrep (0) } } # [doc = "Timerx Capture 2 Control Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Timxccr (pub u32) ; impl Timxccr { # [doc = "Software Capture"]
# [inline (always)]
pub const fn swcpt (& self) -> super :: vals :: Captureeffect { let val = (self . 0 >> 0usize) & 0x01 ; super :: vals :: Captureeffect :: from_bits (val as u8) } # [doc = "Software Capture"]
# [inline (always)]
pub fn set_swcpt (& mut self , val : super :: vals :: Captureeffect) { self . 0 = (self . 0 & ! (0x01 << 0usize)) | (((val . to_bits () as u32) & 0x01) << 0usize) ; } # [doc = "Update Capture"]
# [inline (always)]
pub const fn updcpt (& self) -> super :: vals :: Captureeffect { let val = (self . 0 >> 1usize) & 0x01 ; super :: vals :: Captureeffect :: from_bits (val as u8) } # [doc = "Update Capture"]
# [inline (always)]
pub fn set_updcpt (& mut self , val : super :: vals :: Captureeffect) { self . 0 = (self . 0 & ! (0x01 << 1usize)) | (((val . to_bits () as u32) & 0x01) << 1usize) ; } # [doc = "External Event X Capture"]
# [inline (always)]
pub const fn exevcpt (& self , n : usize) -> super :: vals :: Captureeffect { assert ! (n < 10usize) ; let offs = 2usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Captureeffect :: from_bits (val as u8) } # [doc = "External Event X Capture"]
# [inline (always)]
pub fn set_exevcpt (& mut self , n : usize , val : super :: vals :: Captureeffect) { assert ! (n < 10usize) ; let offs = 2usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "Timer X output Set"]
# [inline (always)]
pub const fn txset (& self) -> super :: vals :: Captureeffect { let val = (self . 0 >> 16usize) & 0x01 ; super :: vals :: Captureeffect :: from_bits (val as u8) } # [doc = "Timer X output Set"]
# [inline (always)]
pub fn set_txset (& mut self , val : super :: vals :: Captureeffect) { self . 0 = (self . 0 & ! (0x01 << 16usize)) | (((val . to_bits () as u32) & 0x01) << 16usize) ; } # [doc = "Timer X output Reset"]
# [inline (always)]
pub const fn txrst (& self) -> super :: vals :: Captureeffect { let val = (self . 0 >> 17usize) & 0x01 ; super :: vals :: Captureeffect :: from_bits (val as u8) } # [doc = "Timer X output Reset"]
# [inline (always)]
pub fn set_txrst (& mut self , val : super :: vals :: Captureeffect) { self . 0 = (self . 0 & ! (0x01 << 17usize)) | (((val . to_bits () as u32) & 0x01) << 17usize) ; } # [doc = "Timer X Compare X"]
# [inline (always)]
pub const fn txcmp (& self , n : usize) -> super :: vals :: Captureeffect { assert ! (n < 2usize) ; let offs = 18usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Captureeffect :: from_bits (val as u8) } # [doc = "Timer X Compare X"]
# [inline (always)]
pub fn set_txcmp (& mut self , n : usize , val : super :: vals :: Captureeffect) { assert ! (n < 2usize) ; let offs = 18usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "Timer Y output Set"]
# [inline (always)]
pub const fn tyset (& self) -> super :: vals :: Captureeffect { let val = (self . 0 >> 20usize) & 0x01 ; super :: vals :: Captureeffect :: from_bits (val as u8) } # [doc = "Timer Y output Set"]
# [inline (always)]
pub fn set_tyset (& mut self , val : super :: vals :: Captureeffect) { self . 0 = (self . 0 & ! (0x01 << 20usize)) | (((val . to_bits () as u32) & 0x01) << 20usize) ; } # [doc = "Timer Y output Reset"]
# [inline (always)]
pub const fn tyrst (& self) -> super :: vals :: Captureeffect { let val = (self . 0 >> 21usize) & 0x01 ; super :: vals :: Captureeffect :: from_bits (val as u8) } # [doc = "Timer Y output Reset"]
# [inline (always)]
pub fn set_tyrst (& mut self , val : super :: vals :: Captureeffect) { self . 0 = (self . 0 & ! (0x01 << 21usize)) | (((val . to_bits () as u32) & 0x01) << 21usize) ; } # [doc = "Timer Y Compare X"]
# [inline (always)]
pub const fn tycmp (& self , n : usize) -> super :: vals :: Captureeffect { assert ! (n < 2usize) ; let offs = 22usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Captureeffect :: from_bits (val as u8) } # [doc = "Timer Y Compare X"]
# [inline (always)]
pub fn set_tycmp (& mut self , n : usize , val : super :: vals :: Captureeffect) { assert ! (n < 2usize) ; let offs = 22usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "Timer Z output Set"]
# [inline (always)]
pub const fn tzset (& self) -> super :: vals :: Captureeffect { let val = (self . 0 >> 24usize) & 0x01 ; super :: vals :: Captureeffect :: from_bits (val as u8) } # [doc = "Timer Z output Set"]
# [inline (always)]
pub fn set_tzset (& mut self , val : super :: vals :: Captureeffect) { self . 0 = (self . 0 & ! (0x01 << 24usize)) | (((val . to_bits () as u32) & 0x01) << 24usize) ; } # [doc = "Timer Z output Reset"]
# [inline (always)]
pub const fn tzrst (& self) -> super :: vals :: Captureeffect { let val = (self . 0 >> 25usize) & 0x01 ; super :: vals :: Captureeffect :: from_bits (val as u8) } # [doc = "Timer Z output Reset"]
# [inline (always)]
pub fn set_tzrst (& mut self , val : super :: vals :: Captureeffect) { self . 0 = (self . 0 & ! (0x01 << 25usize)) | (((val . to_bits () as u32) & 0x01) << 25usize) ; } # [doc = "Timer Z Compare X"]
# [inline (always)]
pub const fn tzcmp (& self , n : usize) -> super :: vals :: Captureeffect { assert ! (n < 2usize) ; let offs = 26usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Captureeffect :: from_bits (val as u8) } # [doc = "Timer Z Compare X"]
# [inline (always)]
pub fn set_tzcmp (& mut self , n : usize , val : super :: vals :: Captureeffect) { assert ! (n < 2usize) ; let offs = 26usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "Timer T output Set"]
# [inline (always)]
pub const fn ttset (& self) -> super :: vals :: Captureeffect { let val = (self . 0 >> 28usize) & 0x01 ; super :: vals :: Captureeffect :: from_bits (val as u8) } # [doc = "Timer T output Set"]
# [inline (always)]
pub fn set_ttset (& mut self , val : super :: vals :: Captureeffect) { self . 0 = (self . 0 & ! (0x01 << 28usize)) | (((val . to_bits () as u32) & 0x01) << 28usize) ; } # [doc = "Timer T output Reset"]
# [inline (always)]
pub const fn ttrst (& self) -> super :: vals :: Captureeffect { let val = (self . 0 >> 29usize) & 0x01 ; super :: vals :: Captureeffect :: from_bits (val as u8) } # [doc = "Timer T output Reset"]
# [inline (always)]
pub fn set_ttrst (& mut self , val : super :: vals :: Captureeffect) { self . 0 = (self . 0 & ! (0x01 << 29usize)) | (((val . to_bits () as u32) & 0x01) << 29usize) ; } # [doc = "Timer T Compare X"]
# [inline (always)]
pub const fn ttcmp (& self , n : usize) -> super :: vals :: Captureeffect { assert ! (n < 2usize) ; let offs = 30usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Captureeffect :: from_bits (val as u8) } # [doc = "Timer T Compare X"]
# [inline (always)]
pub fn set_ttcmp (& mut self , n : usize , val : super :: vals :: Captureeffect) { assert ! (n < 2usize) ; let offs = 30usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } } impl Default for Timxccr { # [inline (always)]
fn default () -> Timxccr { Timxccr (0) } } # [doc = "Timerx Chopper Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Timxchp (pub u32) ; impl Timxchp { # [doc = "Timerx carrier frequency value"]
# [inline (always)]
pub const fn carfrq (& self) -> u8 { let val = (self . 0 >> 0usize) & 0x0f ; val as u8 } # [doc = "Timerx carrier frequency value"]
# [inline (always)]
pub fn set_carfrq (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x0f << 0usize)) | (((val as u32) & 0x0f) << 0usize) ; } # [doc = "Timerx chopper duty cycle value"]
# [inline (always)]
pub const fn cardty (& self) -> u8 { let val = (self . 0 >> 4usize) & 0x07 ; val as u8 } # [doc = "Timerx chopper duty cycle value"]
# [inline (always)]
pub fn set_cardty (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x07 << 4usize)) | (((val as u32) & 0x07) << 4usize) ; } # [doc = "Timerx start pulsewidth"]
# [inline (always)]
pub const fn strtpw (& self) -> u8 { let val = (self . 0 >> 7usize) & 0x0f ; val as u8 } # [doc = "Timerx start pulsewidth"]
# [inline (always)]
pub fn set_strtpw (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x0f << 7usize)) | (((val as u32) & 0x0f) << 7usize) ; } } impl Default for Timxchp { # [inline (always)]
fn default () -> Timxchp { Timxchp (0) } } # [doc = "Timerx Compare X Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Timxcmp (pub u32) ; impl Timxcmp { # [doc = "Timerx Compare X value"]
# [inline (always)]
pub const fn cmp (& self) -> u16 { let val = (self . 0 >> 0usize) & 0xffff ; val as u16 } # [doc = "Timerx Compare X value"]
# [inline (always)]
pub fn set_cmp (& mut self , val : u16) { self . 0 = (self . 0 & ! (0xffff << 0usize)) | (((val as u32) & 0xffff) << 0usize) ; } } impl Default for Timxcmp { # [inline (always)]
fn default () -> Timxcmp { Timxcmp (0) } } # [doc = "Timerx Compare X Compound Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Timxcmpc (pub u32) ; impl Timxcmpc { # [doc = "Timerx Compare X value"]
# [inline (always)]
pub const fn cmp (& self) -> u16 { let val = (self . 0 >> 0usize) & 0xffff ; val as u16 } # [doc = "Timerx Compare X value"]
# [inline (always)]
pub fn set_cmp (& mut self , val : u16) { self . 0 = (self . 0 & ! (0xffff << 0usize)) | (((val as u32) & 0xffff) << 0usize) ; } # [doc = "Timerx Repetition value (aliased from HRTIM_REPx register)"]
# [inline (always)]
pub const fn rep (& self) -> u8 { let val = (self . 0 >> 16usize) & 0xff ; val as u8 } # [doc = "Timerx Repetition value (aliased from HRTIM_REPx register)"]
# [inline (always)]
pub fn set_rep (& mut self , val : u8) { self . 0 = (self . 0 & ! (0xff << 16usize)) | (((val as u32) & 0xff) << 16usize) ; } } impl Default for Timxcmpc { # [inline (always)]
fn default () -> Timxcmpc { Timxcmpc (0) } } # [doc = "Timerx Counter Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Timxcnt (pub u32) ; impl Timxcnt { # [doc = "Timerx Counter value"]
# [inline (always)]
pub const fn cnt (& self) -> u16 { let val = (self . 0 >> 0usize) & 0xffff ; val as u16 } # [doc = "Timerx Counter value"]
# [inline (always)]
pub fn set_cnt (& mut self , val : u16) { self . 0 = (self . 0 & ! (0xffff << 0usize)) | (((val as u32) & 0xffff) << 0usize) ; } } impl Default for Timxcnt { # [inline (always)]
fn default () -> Timxcnt { Timxcnt (0) } } # [doc = "Timerx Capture X Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Timxcpt (pub u32) ; impl Timxcpt { # [doc = "Timerx Capture X value"]
# [inline (always)]
pub const fn cpt (& self) -> u16 { let val = (self . 0 >> 0usize) & 0xffff ; val as u16 } # [doc = "Timerx Capture X value"]
# [inline (always)]
pub fn set_cpt (& mut self , val : u16) { self . 0 = (self . 0 & ! (0xffff << 0usize)) | (((val as u32) & 0xffff) << 0usize) ; } } impl Default for Timxcpt { # [inline (always)]
fn default () -> Timxcpt { Timxcpt (0) } } # [doc = "Timerx Control Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Timxcr (pub u32) ; impl Timxcr { # [doc = "HRTIM Timer x Clock prescaler"]
# [inline (always)]
pub const fn ckpsc (& self) -> u8 { let val = (self . 0 >> 0usize) & 0x07 ; val as u8 } # [doc = "HRTIM Timer x Clock prescaler"]
# [inline (always)]
pub fn set_ckpsc (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x07 << 0usize)) | (((val as u32) & 0x07) << 0usize) ; } # [doc = "Continuous mode"]
# [inline (always)]
pub const fn cont (& self) -> bool { let val = (self . 0 >> 3usize) & 0x01 ; val != 0 } # [doc = "Continuous mode"]
# [inline (always)]
pub fn set_cont (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 3usize)) | (((val as u32) & 0x01) << 3usize) ; } # [doc = "Re-triggerable mode"]
# [inline (always)]
pub const fn retrig (& self) -> bool { let val = (self . 0 >> 4usize) & 0x01 ; val != 0 } # [doc = "Re-triggerable mode"]
# [inline (always)]
pub fn set_retrig (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 4usize)) | (((val as u32) & 0x01) << 4usize) ; } # [doc = "Half mode enable"]
# [inline (always)]
pub const fn half (& self) -> bool { let val = (self . 0 >> 5usize) & 0x01 ; val != 0 } # [doc = "Half mode enable"]
# [inline (always)]
pub fn set_half (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 5usize)) | (((val as u32) & 0x01) << 5usize) ; } # [doc = "Push-Pull mode enable"]
# [inline (always)]
pub const fn pshpll (& self) -> bool { let val = (self . 0 >> 6usize) & 0x01 ; val != 0 } # [doc = "Push-Pull mode enable"]
# [inline (always)]
pub fn set_pshpll (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 6usize)) | (((val as u32) & 0x01) << 6usize) ; } # [doc = "Synchronization Resets Timer X"]
# [inline (always)]
pub const fn syncrst (& self) -> super :: vals :: Syncrst { let val = (self . 0 >> 10usize) & 0x01 ; super :: vals :: Syncrst :: from_bits (val as u8) } # [doc = "Synchronization Resets Timer X"]
# [inline (always)]
pub fn set_syncrst (& mut self , val : super :: vals :: Syncrst) { self . 0 = (self . 0 & ! (0x01 << 10usize)) | (((val . to_bits () as u32) & 0x01) << 10usize) ; } # [doc = "Synchronization Starts Timer X"]
# [inline (always)]
pub const fn syncstrt (& self) -> super :: vals :: Syncstrt { let val = (self . 0 >> 11usize) & 0x01 ; super :: vals :: Syncstrt :: from_bits (val as u8) } # [doc = "Synchronization Starts Timer X"]
# [inline (always)]
pub fn set_syncstrt (& mut self , val : super :: vals :: Syncstrt) { self . 0 = (self . 0 & ! (0x01 << 11usize)) | (((val . to_bits () as u32) & 0x01) << 11usize) ; } # [doc = "Delayed CMP2 mode"]
# [inline (always)]
pub const fn delcmp2 (& self) -> super :: vals :: Delcmp { let val = (self . 0 >> 12usize) & 0x03 ; super :: vals :: Delcmp :: from_bits (val as u8) } # [doc = "Delayed CMP2 mode"]
# [inline (always)]
pub fn set_delcmp2 (& mut self , val : super :: vals :: Delcmp) { self . 0 = (self . 0 & ! (0x03 << 12usize)) | (((val . to_bits () as u32) & 0x03) << 12usize) ; } # [doc = "Delayed CMP4 mode"]
# [inline (always)]
pub const fn delcmp4 (& self) -> super :: vals :: Delcmp { let val = (self . 0 >> 14usize) & 0x03 ; super :: vals :: Delcmp :: from_bits (val as u8) } # [doc = "Delayed CMP4 mode"]
# [inline (always)]
pub fn set_delcmp4 (& mut self , val : super :: vals :: Delcmp) { self . 0 = (self . 0 & ! (0x03 << 14usize)) | (((val . to_bits () as u32) & 0x03) << 14usize) ; } # [doc = "Timer X Repetition update"]
# [inline (always)]
pub const fn repu (& self) -> bool { let val = (self . 0 >> 17usize) & 0x01 ; val != 0 } # [doc = "Timer X Repetition update"]
# [inline (always)]
pub fn set_repu (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 17usize)) | (((val as u32) & 0x01) << 17usize) ; } # [doc = "Timer X reset update"]
# [inline (always)]
pub const fn rstu (& self) -> bool { let val = (self . 0 >> 18usize) & 0x01 ; val != 0 } # [doc = "Timer X reset update"]
# [inline (always)]
pub fn set_rstu (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 18usize)) | (((val as u32) & 0x01) << 18usize) ; } # [doc = "Timer A update"]
# [inline (always)]
pub const fn tau (& self) -> bool { let val = (self . 0 >> 19usize) & 0x01 ; val != 0 } # [doc = "Timer A update"]
# [inline (always)]
pub fn set_tau (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 19usize)) | (((val as u32) & 0x01) << 19usize) ; } # [doc = "Timer B update"]
# [inline (always)]
pub const fn tbu (& self) -> bool { let val = (self . 0 >> 20usize) & 0x01 ; val != 0 } # [doc = "Timer B update"]
# [inline (always)]
pub fn set_tbu (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 20usize)) | (((val as u32) & 0x01) << 20usize) ; } # [doc = "Timer C update"]
# [inline (always)]
pub const fn tcu (& self) -> bool { let val = (self . 0 >> 21usize) & 0x01 ; val != 0 } # [doc = "Timer C update"]
# [inline (always)]
pub fn set_tcu (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 21usize)) | (((val as u32) & 0x01) << 21usize) ; } # [doc = "Timer D update"]
# [inline (always)]
pub const fn tdu (& self) -> bool { let val = (self . 0 >> 22usize) & 0x01 ; val != 0 } # [doc = "Timer D update"]
# [inline (always)]
pub fn set_tdu (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 22usize)) | (((val as u32) & 0x01) << 22usize) ; } # [doc = "Timer E update"]
# [inline (always)]
pub const fn teu (& self) -> bool { let val = (self . 0 >> 23usize) & 0x01 ; val != 0 } # [doc = "Timer E update"]
# [inline (always)]
pub fn set_teu (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 23usize)) | (((val as u32) & 0x01) << 23usize) ; } # [doc = "Master Timer update"]
# [inline (always)]
pub const fn mstu (& self) -> bool { let val = (self . 0 >> 24usize) & 0x01 ; val != 0 } # [doc = "Master Timer update"]
# [inline (always)]
pub fn set_mstu (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 24usize)) | (((val as u32) & 0x01) << 24usize) ; } # [doc = "AC Synchronization"]
# [inline (always)]
pub const fn dacsync (& self) -> super :: vals :: Dacsync { let val = (self . 0 >> 25usize) & 0x03 ; super :: vals :: Dacsync :: from_bits (val as u8) } # [doc = "AC Synchronization"]
# [inline (always)]
pub fn set_dacsync (& mut self , val : super :: vals :: Dacsync) { self . 0 = (self . 0 & ! (0x03 << 25usize)) | (((val . to_bits () as u32) & 0x03) << 25usize) ; } # [doc = "Preload enable"]
# [inline (always)]
pub const fn preen (& self) -> bool { let val = (self . 0 >> 27usize) & 0x01 ; val != 0 } # [doc = "Preload enable"]
# [inline (always)]
pub fn set_preen (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 27usize)) | (((val as u32) & 0x01) << 27usize) ; } # [doc = "Update Gating"]
# [inline (always)]
pub const fn updgat (& self) -> super :: vals :: Updgat { let val = (self . 0 >> 28usize) & 0x0f ; super :: vals :: Updgat :: from_bits (val as u8) } # [doc = "Update Gating"]
# [inline (always)]
pub fn set_updgat (& mut self , val : super :: vals :: Updgat) { self . 0 = (self . 0 & ! (0x0f << 28usize)) | (((val . to_bits () as u32) & 0x0f) << 28usize) ; } } impl Default for Timxcr { # [inline (always)]
fn default () -> Timxcr { Timxcr (0) } } # [doc = "Timerx DMA / Interrupt Enable Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Timxdier (pub u32) ; impl Timxdier { # [doc = "Compare X Interrupt Enable"]
# [inline (always)]
pub const fn cmpie (& self , n : usize) -> bool { assert ! (n < 4usize) ; let offs = 0usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Compare X Interrupt Enable"]
# [inline (always)]
pub fn set_cmpie (& mut self , n : usize , val : bool) { assert ! (n < 4usize) ; let offs = 0usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Repetition Interrupt Enable"]
# [inline (always)]
pub const fn repie (& self) -> bool { let val = (self . 0 >> 4usize) & 0x01 ; val != 0 } # [doc = "Repetition Interrupt Enable"]
# [inline (always)]
pub fn set_repie (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 4usize)) | (((val as u32) & 0x01) << 4usize) ; } # [doc = "Update Interrupt Enable"]
# [inline (always)]
pub const fn updie (& self) -> bool { let val = (self . 0 >> 6usize) & 0x01 ; val != 0 } # [doc = "Update Interrupt Enable"]
# [inline (always)]
pub fn set_updie (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 6usize)) | (((val as u32) & 0x01) << 6usize) ; } # [doc = "Capture Interrupt Enable"]
# [inline (always)]
pub const fn cptie (& self , n : usize) -> bool { assert ! (n < 2usize) ; let offs = 7usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Capture Interrupt Enable"]
# [inline (always)]
pub fn set_cptie (& mut self , n : usize , val : bool) { assert ! (n < 2usize) ; let offs = 7usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Output X Set Interrupt Enable"]
# [inline (always)]
pub const fn setrie (& self , n : usize) -> bool { assert ! (n < 2usize) ; let offs = 9usize + ([0usize , 2usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Output X Set Interrupt Enable"]
# [inline (always)]
pub fn set_setrie (& mut self , n : usize , val : bool) { assert ! (n < 2usize) ; let offs = 9usize + ([0usize , 2usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Output X Reset Interrupt Enable"]
# [inline (always)]
pub const fn rstrie (& self , n : usize) -> bool { assert ! (n < 2usize) ; let offs = 10usize + ([0usize , 2usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Output X Reset Interrupt Enable"]
# [inline (always)]
pub fn set_rstrie (& mut self , n : usize , val : bool) { assert ! (n < 2usize) ; let offs = 10usize + ([0usize , 2usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Reset/roll-over Interrupt Enable"]
# [inline (always)]
pub const fn rstie (& self) -> bool { let val = (self . 0 >> 13usize) & 0x01 ; val != 0 } # [doc = "Reset/roll-over Interrupt Enable"]
# [inline (always)]
pub fn set_rstie (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 13usize)) | (((val as u32) & 0x01) << 13usize) ; } # [doc = "Delayed Protection Interrupt Enable"]
# [inline (always)]
pub const fn dlyprtie (& self) -> bool { let val = (self . 0 >> 14usize) & 0x01 ; val != 0 } # [doc = "Delayed Protection Interrupt Enable"]
# [inline (always)]
pub fn set_dlyprtie (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 14usize)) | (((val as u32) & 0x01) << 14usize) ; } # [doc = "Compare X DMA request Enable"]
# [inline (always)]
pub const fn cmpde (& self , n : usize) -> bool { assert ! (n < 4usize) ; let offs = 16usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Compare X DMA request Enable"]
# [inline (always)]
pub fn set_cmpde (& mut self , n : usize , val : bool) { assert ! (n < 4usize) ; let offs = 16usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Repetition DMA request Enable"]
# [inline (always)]
pub const fn repde (& self) -> bool { let val = (self . 0 >> 20usize) & 0x01 ; val != 0 } # [doc = "Repetition DMA request Enable"]
# [inline (always)]
pub fn set_repde (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 20usize)) | (((val as u32) & 0x01) << 20usize) ; } # [doc = "Update DMA request Enable"]
# [inline (always)]
pub const fn updde (& self) -> bool { let val = (self . 0 >> 22usize) & 0x01 ; val != 0 } # [doc = "Update DMA request Enable"]
# [inline (always)]
pub fn set_updde (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 22usize)) | (((val as u32) & 0x01) << 22usize) ; } # [doc = "Capture X DMA request Enable"]
# [inline (always)]
pub const fn cptde (& self , n : usize) -> bool { assert ! (n < 2usize) ; let offs = 23usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Capture X DMA request Enable"]
# [inline (always)]
pub fn set_cptde (& mut self , n : usize , val : bool) { assert ! (n < 2usize) ; let offs = 23usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Output X Set DMA request Enable"]
# [inline (always)]
pub const fn setrde (& self , n : usize) -> bool { assert ! (n < 2usize) ; let offs = 25usize + ([0usize , 2usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Output X Set DMA request Enable"]
# [inline (always)]
pub fn set_setrde (& mut self , n : usize , val : bool) { assert ! (n < 2usize) ; let offs = 25usize + ([0usize , 2usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Output X Reset DMA request Enable"]
# [inline (always)]
pub const fn rstrde (& self , n : usize) -> bool { assert ! (n < 2usize) ; let offs = 26usize + ([0usize , 2usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Output X Reset DMA request Enable"]
# [inline (always)]
pub fn set_rstrde (& mut self , n : usize , val : bool) { assert ! (n < 2usize) ; let offs = 26usize + ([0usize , 2usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Reset/roll-over DMA request Enable"]
# [inline (always)]
pub const fn rstde (& self) -> bool { let val = (self . 0 >> 29usize) & 0x01 ; val != 0 } # [doc = "Reset/roll-over DMA request Enable"]
# [inline (always)]
pub fn set_rstde (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 29usize)) | (((val as u32) & 0x01) << 29usize) ; } # [doc = "Delayed Protection DMA request Enable"]
# [inline (always)]
pub const fn dlyprtde (& self) -> bool { let val = (self . 0 >> 30usize) & 0x01 ; val != 0 } # [doc = "Delayed Protection DMA request Enable"]
# [inline (always)]
pub fn set_dlyprtde (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 30usize)) | (((val as u32) & 0x01) << 30usize) ; } } impl Default for Timxdier { # [inline (always)]
fn default () -> Timxdier { Timxdier (0) } } # [doc = "Timerx Deadtime Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Timxdt (pub u32) ; impl Timxdt { # [doc = "Deadtime Rising value"]
# [inline (always)]
pub const fn dtr (& self) -> u16 { let val = (self . 0 >> 0usize) & 0x01ff ; val as u16 } # [doc = "Deadtime Rising value"]
# [inline (always)]
pub fn set_dtr (& mut self , val : u16) { self . 0 = (self . 0 & ! (0x01ff << 0usize)) | (((val as u32) & 0x01ff) << 0usize) ; } # [doc = "Sign Deadtime Rising value"]
# [inline (always)]
pub const fn sdtr (& self) -> super :: vals :: Sdtr { let val = (self . 0 >> 9usize) & 0x01 ; super :: vals :: Sdtr :: from_bits (val as u8) } # [doc = "Sign Deadtime Rising value"]
# [inline (always)]
pub fn set_sdtr (& mut self , val : super :: vals :: Sdtr) { self . 0 = (self . 0 & ! (0x01 << 9usize)) | (((val . to_bits () as u32) & 0x01) << 9usize) ; } # [doc = "Deadtime Prescaler"]
# [inline (always)]
pub const fn dtprsc (& self) -> u8 { let val = (self . 0 >> 10usize) & 0x07 ; val as u8 } # [doc = "Deadtime Prescaler"]
# [inline (always)]
pub fn set_dtprsc (& mut self , val : u8) { self . 0 = (self . 0 & ! (0x07 << 10usize)) | (((val as u32) & 0x07) << 10usize) ; } # [doc = "Deadtime Rising Sign Lock"]
# [inline (always)]
pub const fn dtrslk (& self) -> bool { let val = (self . 0 >> 14usize) & 0x01 ; val != 0 } # [doc = "Deadtime Rising Sign Lock"]
# [inline (always)]
pub fn set_dtrslk (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 14usize)) | (((val as u32) & 0x01) << 14usize) ; } # [doc = "Deadtime Rising Lock"]
# [inline (always)]
pub const fn dtrlk (& self) -> bool { let val = (self . 0 >> 15usize) & 0x01 ; val != 0 } # [doc = "Deadtime Rising Lock"]
# [inline (always)]
pub fn set_dtrlk (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 15usize)) | (((val as u32) & 0x01) << 15usize) ; } # [doc = "Deadtime Falling value"]
# [inline (always)]
pub const fn dtf (& self) -> u16 { let val = (self . 0 >> 16usize) & 0x01ff ; val as u16 } # [doc = "Deadtime Falling value"]
# [inline (always)]
pub fn set_dtf (& mut self , val : u16) { self . 0 = (self . 0 & ! (0x01ff << 16usize)) | (((val as u32) & 0x01ff) << 16usize) ; } # [doc = "Sign Deadtime Falling value"]
# [inline (always)]
pub const fn sdtf (& self) -> super :: vals :: Sdtf { let val = (self . 0 >> 25usize) & 0x01 ; super :: vals :: Sdtf :: from_bits (val as u8) } # [doc = "Sign Deadtime Falling value"]
# [inline (always)]
pub fn set_sdtf (& mut self , val : super :: vals :: Sdtf) { self . 0 = (self . 0 & ! (0x01 << 25usize)) | (((val . to_bits () as u32) & 0x01) << 25usize) ; } # [doc = "Deadtime Falling Sign Lock"]
# [inline (always)]
pub const fn dtfslk (& self) -> bool { let val = (self . 0 >> 30usize) & 0x01 ; val != 0 } # [doc = "Deadtime Falling Sign Lock"]
# [inline (always)]
pub fn set_dtfslk (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 30usize)) | (((val as u32) & 0x01) << 30usize) ; } # [doc = "Deadtime Falling Lock"]
# [inline (always)]
pub const fn dtflk (& self) -> bool { let val = (self . 0 >> 31usize) & 0x01 ; val != 0 } # [doc = "Deadtime Falling Lock"]
# [inline (always)]
pub fn set_dtflk (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 31usize)) | (((val as u32) & 0x01) << 31usize) ; } } impl Default for Timxdt { # [inline (always)]
fn default () -> Timxdt { Timxdt (0) } } # [doc = "Timer X External Event Filtering Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Timxeef (pub u32) ; impl Timxeef { # [doc = "External Event X latch"]
# [inline (always)]
pub const fn ltch (& self , n : usize) -> bool { assert ! (n < 5usize) ; let offs = 0usize + n * 6usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "External Event X latch"]
# [inline (always)]
pub fn set_ltch (& mut self , n : usize , val : bool) { assert ! (n < 5usize) ; let offs = 0usize + n * 6usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "External Event X filter"]
# [inline (always)]
pub const fn fltr (& self , n : usize) -> super :: vals :: Eefltr { assert ! (n < 5usize) ; let offs = 1usize + n * 6usize ; let val = (self . 0 >> offs) & 0x0f ; super :: vals :: Eefltr :: from_bits (val as u8) } # [doc = "External Event X filter"]
# [inline (always)]
pub fn set_fltr (& mut self , n : usize , val : super :: vals :: Eefltr) { assert ! (n < 5usize) ; let offs = 1usize + n * 6usize ; self . 0 = (self . 0 & ! (0x0f << offs)) | (((val . to_bits () as u32) & 0x0f) << offs) ; } } impl Default for Timxeef { # [inline (always)]
fn default () -> Timxeef { Timxeef (0) } } # [doc = "Timerx Fault Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Timxflt (pub u32) ; impl Timxflt { # [doc = "Fault X enable"]
# [inline (always)]
pub const fn flten (& self , n : usize) -> super :: vals :: Flten { assert ! (n < 5usize) ; let offs = 0usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Flten :: from_bits (val as u8) } # [doc = "Fault X enable"]
# [inline (always)]
pub fn set_flten (& mut self , n : usize , val : super :: vals :: Flten) { assert ! (n < 5usize) ; let offs = 0usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "Fault sources Lock"]
# [inline (always)]
pub const fn fltlck (& self) -> bool { let val = (self . 0 >> 31usize) & 0x01 ; val != 0 } # [doc = "Fault sources Lock"]
# [inline (always)]
pub fn set_fltlck (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 31usize)) | (((val as u32) & 0x01) << 31usize) ; } } impl Default for Timxflt { # [inline (always)]
fn default () -> Timxflt { Timxflt (0) } } # [doc = "Timerx Interrupt Clear Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Timxicr (pub u32) ; impl Timxicr { # [doc = "Compare X Interrupt flag Clear"]
# [inline (always)]
pub const fn cmpc (& self , n : usize) -> bool { assert ! (n < 4usize) ; let offs = 0usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Compare X Interrupt flag Clear"]
# [inline (always)]
pub fn set_cmpc (& mut self , n : usize , val : bool) { assert ! (n < 4usize) ; let offs = 0usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Repetition Interrupt flag Clear"]
# [inline (always)]
pub const fn repc (& self) -> bool { let val = (self . 0 >> 4usize) & 0x01 ; val != 0 } # [doc = "Repetition Interrupt flag Clear"]
# [inline (always)]
pub fn set_repc (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 4usize)) | (((val as u32) & 0x01) << 4usize) ; } # [doc = "Update Interrupt flag Clear"]
# [inline (always)]
pub const fn updc (& self) -> bool { let val = (self . 0 >> 6usize) & 0x01 ; val != 0 } # [doc = "Update Interrupt flag Clear"]
# [inline (always)]
pub fn set_updc (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 6usize)) | (((val as u32) & 0x01) << 6usize) ; } # [doc = "Capture X Interrupt flag Clear"]
# [inline (always)]
pub const fn cptc (& self , n : usize) -> bool { assert ! (n < 2usize) ; let offs = 7usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Capture X Interrupt flag Clear"]
# [inline (always)]
pub fn set_cptc (& mut self , n : usize , val : bool) { assert ! (n < 2usize) ; let offs = 7usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Output X Set flag Clear"]
# [inline (always)]
pub const fn setrc (& self , n : usize) -> bool { assert ! (n < 2usize) ; let offs = 9usize + ([0usize , 2usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Output X Set flag Clear"]
# [inline (always)]
pub fn set_setrc (& mut self , n : usize , val : bool) { assert ! (n < 2usize) ; let offs = 9usize + ([0usize , 2usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Output X Reset flag Clear"]
# [inline (always)]
pub const fn rstrc (& self , n : usize) -> bool { assert ! (n < 2usize) ; let offs = 10usize + ([0usize , 2usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Output X Reset flag Clear"]
# [inline (always)]
pub fn set_rstrc (& mut self , n : usize , val : bool) { assert ! (n < 2usize) ; let offs = 10usize + ([0usize , 2usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Reset Interrupt flag Clear"]
# [inline (always)]
pub const fn rstc (& self) -> bool { let val = (self . 0 >> 13usize) & 0x01 ; val != 0 } # [doc = "Reset Interrupt flag Clear"]
# [inline (always)]
pub fn set_rstc (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 13usize)) | (((val as u32) & 0x01) << 13usize) ; } # [doc = "Delayed Protection Flag Clear"]
# [inline (always)]
pub const fn dlyprtc (& self) -> bool { let val = (self . 0 >> 14usize) & 0x01 ; val != 0 } # [doc = "Delayed Protection Flag Clear"]
# [inline (always)]
pub fn set_dlyprtc (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 14usize)) | (((val as u32) & 0x01) << 14usize) ; } } impl Default for Timxicr { # [inline (always)]
fn default () -> Timxicr { Timxicr (0) } } # [doc = "Timerx Interrupt Status Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Timxisr (pub u32) ; impl Timxisr { # [doc = "Compare X Interrupt Flag"]
# [inline (always)]
pub const fn cmp (& self , n : usize) -> bool { assert ! (n < 4usize) ; let offs = 0usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Compare X Interrupt Flag"]
# [inline (always)]
pub fn set_cmp (& mut self , n : usize , val : bool) { assert ! (n < 4usize) ; let offs = 0usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Repetition Interrupt Flag"]
# [inline (always)]
pub const fn rep (& self) -> bool { let val = (self . 0 >> 4usize) & 0x01 ; val != 0 } # [doc = "Repetition Interrupt Flag"]
# [inline (always)]
pub fn set_rep (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 4usize)) | (((val as u32) & 0x01) << 4usize) ; } # [doc = "Update Interrupt Flag"]
# [inline (always)]
pub const fn upd (& self) -> bool { let val = (self . 0 >> 6usize) & 0x01 ; val != 0 } # [doc = "Update Interrupt Flag"]
# [inline (always)]
pub fn set_upd (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 6usize)) | (((val as u32) & 0x01) << 6usize) ; } # [doc = "Capture X Interrupt Flag"]
# [inline (always)]
pub const fn cpt (& self , n : usize) -> bool { assert ! (n < 2usize) ; let offs = 7usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Capture X Interrupt Flag"]
# [inline (always)]
pub fn set_cpt (& mut self , n : usize , val : bool) { assert ! (n < 2usize) ; let offs = 7usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Output X Set Interrupt Flag"]
# [inline (always)]
pub const fn setr (& self , n : usize) -> bool { assert ! (n < 2usize) ; let offs = 9usize + ([0usize , 2usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Output X Set Interrupt Flag"]
# [inline (always)]
pub fn set_setr (& mut self , n : usize , val : bool) { assert ! (n < 2usize) ; let offs = 9usize + ([0usize , 2usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Output X Reset Interrupt Flag"]
# [inline (always)]
pub const fn rstr (& self , n : usize) -> bool { assert ! (n < 2usize) ; let offs = 10usize + ([0usize , 2usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Output X Reset Interrupt Flag"]
# [inline (always)]
pub fn set_rstr (& mut self , n : usize , val : bool) { assert ! (n < 2usize) ; let offs = 10usize + ([0usize , 2usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Reset Interrupt Flag"]
# [inline (always)]
pub const fn rst (& self) -> bool { let val = (self . 0 >> 13usize) & 0x01 ; val != 0 } # [doc = "Reset Interrupt Flag"]
# [inline (always)]
pub fn set_rst (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 13usize)) | (((val as u32) & 0x01) << 13usize) ; } # [doc = "Delayed Protection Flag"]
# [inline (always)]
pub const fn dlyprt (& self) -> super :: vals :: TimaisrDlyprt { let val = (self . 0 >> 14usize) & 0x01 ; super :: vals :: TimaisrDlyprt :: from_bits (val as u8) } # [doc = "Delayed Protection Flag"]
# [inline (always)]
pub fn set_dlyprt (& mut self , val : super :: vals :: TimaisrDlyprt) { self . 0 = (self . 0 & ! (0x01 << 14usize)) | (((val . to_bits () as u32) & 0x01) << 14usize) ; } # [doc = "Current Push Pull Status"]
# [inline (always)]
pub const fn cppstat (& self) -> super :: vals :: Cppstat { let val = (self . 0 >> 16usize) & 0x01 ; super :: vals :: Cppstat :: from_bits (val as u8) } # [doc = "Current Push Pull Status"]
# [inline (always)]
pub fn set_cppstat (& mut self , val : super :: vals :: Cppstat) { self . 0 = (self . 0 & ! (0x01 << 16usize)) | (((val . to_bits () as u32) & 0x01) << 16usize) ; } # [doc = "Idle Push Pull Status"]
# [inline (always)]
pub const fn ippstat (& self) -> super :: vals :: Ippstat { let val = (self . 0 >> 17usize) & 0x01 ; super :: vals :: Ippstat :: from_bits (val as u8) } # [doc = "Idle Push Pull Status"]
# [inline (always)]
pub fn set_ippstat (& mut self , val : super :: vals :: Ippstat) { self . 0 = (self . 0 & ! (0x01 << 17usize)) | (((val . to_bits () as u32) & 0x01) << 17usize) ; } # [doc = "Output X State"]
# [inline (always)]
pub const fn ostat (& self , n : usize) -> super :: vals :: Outputstate { assert ! (n < 2usize) ; let offs = 18usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Outputstate :: from_bits (val as u8) } # [doc = "Output X State"]
# [inline (always)]
pub fn set_ostat (& mut self , n : usize , val : super :: vals :: Outputstate) { assert ! (n < 2usize) ; let offs = 18usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "Output X Copy"]
# [inline (always)]
pub const fn ocpy (& self , n : usize) -> super :: vals :: Outputstate { assert ! (n < 2usize) ; let offs = 20usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Outputstate :: from_bits (val as u8) } # [doc = "Output X Copy"]
# [inline (always)]
pub fn set_ocpy (& mut self , n : usize , val : super :: vals :: Outputstate) { assert ! (n < 2usize) ; let offs = 20usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } } impl Default for Timxisr { # [inline (always)]
fn default () -> Timxisr { Timxisr (0) } } # [doc = "Timerx Output Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Timxoutr (pub u32) ; impl Timxoutr { # [doc = "Output 1 polarity"]
# [inline (always)]
pub const fn pol (& self , n : usize) -> super :: vals :: Pol { assert ! (n < 2usize) ; let offs = 1usize + ([0usize , 16usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Pol :: from_bits (val as u8) } # [doc = "Output 1 polarity"]
# [inline (always)]
pub fn set_pol (& mut self , n : usize , val : super :: vals :: Pol) { assert ! (n < 2usize) ; let offs = 1usize + ([0usize , 16usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "Output X Idle mode"]
# [inline (always)]
pub const fn idlem (& self , n : usize) -> bool { assert ! (n < 2usize) ; let offs = 2usize + ([0usize , 16usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Output X Idle mode"]
# [inline (always)]
pub fn set_idlem (& mut self , n : usize , val : bool) { assert ! (n < 2usize) ; let offs = 2usize + ([0usize , 16usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Output X Idle State"]
# [inline (always)]
pub const fn idles (& self , n : usize) -> bool { assert ! (n < 2usize) ; let offs = 3usize + ([0usize , 16usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Output X Idle State"]
# [inline (always)]
pub fn set_idles (& mut self , n : usize , val : bool) { assert ! (n < 2usize) ; let offs = 3usize + ([0usize , 16usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Output X Fault state"]
# [inline (always)]
pub const fn faultx (& self , n : usize) -> super :: vals :: Fault { assert ! (n < 2usize) ; let offs = 4usize + ([0usize , 16usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x03 ; super :: vals :: Fault :: from_bits (val as u8) } # [doc = "Output X Fault state"]
# [inline (always)]
pub fn set_faultx (& mut self , n : usize , val : super :: vals :: Fault) { assert ! (n < 2usize) ; let offs = 4usize + ([0usize , 16usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x03 << offs)) | (((val . to_bits () as u32) & 0x03) << offs) ; } # [doc = "Output X Chopper enable"]
# [inline (always)]
pub const fn chp (& self , n : usize) -> bool { assert ! (n < 2usize) ; let offs = 6usize + ([0usize , 16usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Output X Chopper enable"]
# [inline (always)]
pub fn set_chp (& mut self , n : usize , val : bool) { assert ! (n < 2usize) ; let offs = 6usize + ([0usize , 16usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Output X Deadtime upon burst mode Idle entry"]
# [inline (always)]
pub const fn didl (& self , n : usize) -> bool { assert ! (n < 2usize) ; let offs = 7usize + ([0usize , 16usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; val != 0 } # [doc = "Output X Deadtime upon burst mode Idle entry"]
# [inline (always)]
pub fn set_didl (& mut self , n : usize , val : bool) { assert ! (n < 2usize) ; let offs = 7usize + ([0usize , 16usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val as u32) & 0x01) << offs) ; } # [doc = "Deadtime enable"]
# [inline (always)]
pub const fn dten (& self) -> bool { let val = (self . 0 >> 8usize) & 0x01 ; val != 0 } # [doc = "Deadtime enable"]
# [inline (always)]
pub fn set_dten (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 8usize)) | (((val as u32) & 0x01) << 8usize) ; } # [doc = "Delayed Protection Enable"]
# [inline (always)]
pub const fn dlyprten (& self) -> bool { let val = (self . 0 >> 9usize) & 0x01 ; val != 0 } # [doc = "Delayed Protection Enable"]
# [inline (always)]
pub fn set_dlyprten (& mut self , val : bool) { self . 0 = (self . 0 & ! (0x01 << 9usize)) | (((val as u32) & 0x01) << 9usize) ; } # [doc = "Delayed Protection"]
# [inline (always)]
pub const fn dlyprt (& self) -> super :: vals :: Dlyprt { let val = (self . 0 >> 10usize) & 0x07 ; super :: vals :: Dlyprt :: from_bits (val as u8) } # [doc = "Delayed Protection"]
# [inline (always)]
pub fn set_dlyprt (& mut self , val : super :: vals :: Dlyprt) { self . 0 = (self . 0 & ! (0x07 << 10usize)) | (((val . to_bits () as u32) & 0x07) << 10usize) ; } } impl Default for Timxoutr { # [inline (always)]
fn default () -> Timxoutr { Timxoutr (0) } } # [doc = "Timerx Period Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Timxper (pub u32) ; impl Timxper { # [doc = "Timerx Period value"]
# [inline (always)]
pub const fn per (& self) -> u16 { let val = (self . 0 >> 0usize) & 0xffff ; val as u16 } # [doc = "Timerx Period value"]
# [inline (always)]
pub fn set_per (& mut self , val : u16) { self . 0 = (self . 0 & ! (0xffff << 0usize)) | (((val as u32) & 0xffff) << 0usize) ; } } impl Default for Timxper { # [inline (always)]
fn default () -> Timxper { Timxper (0) } } # [doc = "Timerx Repetition Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Timxrep (pub u32) ; impl Timxrep { # [doc = "Timerx Repetition counter value"]
# [inline (always)]
pub const fn rep (& self) -> u8 { let val = (self . 0 >> 0usize) & 0xff ; val as u8 } # [doc = "Timerx Repetition counter value"]
# [inline (always)]
pub fn set_rep (& mut self , val : u8) { self . 0 = (self . 0 & ! (0xff << 0usize)) | (((val as u32) & 0xff) << 0usize) ; } } impl Default for Timxrep { # [inline (always)]
fn default () -> Timxrep { Timxrep (0) } } # [doc = "Timerx Reset Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Timxrst (pub u32) ; impl Timxrst { # [doc = "Timer X Update reset"]
# [inline (always)]
pub const fn updt (& self) -> super :: vals :: Reseteffect { let val = (self . 0 >> 1usize) & 0x01 ; super :: vals :: Reseteffect :: from_bits (val as u8) } # [doc = "Timer X Update reset"]
# [inline (always)]
pub fn set_updt (& mut self , val : super :: vals :: Reseteffect) { self . 0 = (self . 0 & ! (0x01 << 1usize)) | (((val . to_bits () as u32) & 0x01) << 1usize) ; } # [doc = "Timer X compare X reset"]
# [inline (always)]
pub const fn cmp (& self , n : usize) -> super :: vals :: Reseteffect { assert ! (n < 2usize) ; let offs = 2usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Reseteffect :: from_bits (val as u8) } # [doc = "Timer X compare X reset"]
# [inline (always)]
pub fn set_cmp (& mut self , n : usize , val : super :: vals :: Reseteffect) { assert ! (n < 2usize) ; let offs = 2usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "Master timer Period"]
# [inline (always)]
pub const fn mstper (& self) -> super :: vals :: Reseteffect { let val = (self . 0 >> 4usize) & 0x01 ; super :: vals :: Reseteffect :: from_bits (val as u8) } # [doc = "Master timer Period"]
# [inline (always)]
pub fn set_mstper (& mut self , val : super :: vals :: Reseteffect) { self . 0 = (self . 0 & ! (0x01 << 4usize)) | (((val . to_bits () as u32) & 0x01) << 4usize) ; } # [doc = "Master compare X"]
# [inline (always)]
pub const fn mstcmp (& self , n : usize) -> super :: vals :: Reseteffect { assert ! (n < 4usize) ; let offs = 5usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Reseteffect :: from_bits (val as u8) } # [doc = "Master compare X"]
# [inline (always)]
pub fn set_mstcmp (& mut self , n : usize , val : super :: vals :: Reseteffect) { assert ! (n < 4usize) ; let offs = 5usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "External Event X"]
# [inline (always)]
pub const fn extevnt (& self , n : usize) -> super :: vals :: Reseteffect { assert ! (n < 10usize) ; let offs = 9usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Reseteffect :: from_bits (val as u8) } # [doc = "External Event X"]
# [inline (always)]
pub fn set_extevnt (& mut self , n : usize , val : super :: vals :: Reseteffect) { assert ! (n < 10usize) ; let offs = 9usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "Timer X compare 1 event"]
# [inline (always)]
pub const fn tcmp1 (& self , n : usize) -> super :: vals :: Reseteffect { assert ! (n < 4usize) ; let offs = 19usize + ([0usize , 3usize , 6usize , 9usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Reseteffect :: from_bits (val as u8) } # [doc = "Timer X compare 1 event"]
# [inline (always)]
pub fn set_tcmp1 (& mut self , n : usize , val : super :: vals :: Reseteffect) { assert ! (n < 4usize) ; let offs = 19usize + ([0usize , 3usize , 6usize , 9usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "Timer X compare 2 event"]
# [inline (always)]
pub const fn tcmp2 (& self , n : usize) -> super :: vals :: Reseteffect { assert ! (n < 4usize) ; let offs = 20usize + ([0usize , 3usize , 6usize , 9usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Reseteffect :: from_bits (val as u8) } # [doc = "Timer X compare 2 event"]
# [inline (always)]
pub fn set_tcmp2 (& mut self , n : usize , val : super :: vals :: Reseteffect) { assert ! (n < 4usize) ; let offs = 20usize + ([0usize , 3usize , 6usize , 9usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "Timer X compare 4 event"]
# [inline (always)]
pub const fn tcmp4 (& self , n : usize) -> super :: vals :: Reseteffect { assert ! (n < 4usize) ; let offs = 21usize + ([0usize , 3usize , 6usize , 9usize]
[n]
as usize) ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Reseteffect :: from_bits (val as u8) } # [doc = "Timer X compare 4 event"]
# [inline (always)]
pub fn set_tcmp4 (& mut self , n : usize , val : super :: vals :: Reseteffect) { assert ! (n < 4usize) ; let offs = 21usize + ([0usize , 3usize , 6usize , 9usize]
[n]
as usize) ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } } impl Default for Timxrst { # [inline (always)]
fn default () -> Timxrst { Timxrst (0) } } # [doc = "Timerx OutputX Reset Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Timxrstr (pub u32) ; impl Timxrstr { # [doc = "Software Reset trigger"]
# [inline (always)]
pub const fn srt (& self) -> super :: vals :: Inactiveeffect { let val = (self . 0 >> 0usize) & 0x01 ; super :: vals :: Inactiveeffect :: from_bits (val as u8) } # [doc = "Software Reset trigger"]
# [inline (always)]
pub fn set_srt (& mut self , val : super :: vals :: Inactiveeffect) { self . 0 = (self . 0 & ! (0x01 << 0usize)) | (((val . to_bits () as u32) & 0x01) << 0usize) ; } # [doc = "Timer X resynchronizaton"]
# [inline (always)]
pub const fn resync (& self) -> super :: vals :: Inactiveeffect { let val = (self . 0 >> 1usize) & 0x01 ; super :: vals :: Inactiveeffect :: from_bits (val as u8) } # [doc = "Timer X resynchronizaton"]
# [inline (always)]
pub fn set_resync (& mut self , val : super :: vals :: Inactiveeffect) { self . 0 = (self . 0 & ! (0x01 << 1usize)) | (((val . to_bits () as u32) & 0x01) << 1usize) ; } # [doc = "Timer X Period"]
# [inline (always)]
pub const fn per (& self) -> super :: vals :: Inactiveeffect { let val = (self . 0 >> 2usize) & 0x01 ; super :: vals :: Inactiveeffect :: from_bits (val as u8) } # [doc = "Timer X Period"]
# [inline (always)]
pub fn set_per (& mut self , val : super :: vals :: Inactiveeffect) { self . 0 = (self . 0 & ! (0x01 << 2usize)) | (((val . to_bits () as u32) & 0x01) << 2usize) ; } # [doc = "Timer X compare X"]
# [inline (always)]
pub const fn cmp (& self , n : usize) -> super :: vals :: Inactiveeffect { assert ! (n < 4usize) ; let offs = 3usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Inactiveeffect :: from_bits (val as u8) } # [doc = "Timer X compare X"]
# [inline (always)]
pub fn set_cmp (& mut self , n : usize , val : super :: vals :: Inactiveeffect) { assert ! (n < 4usize) ; let offs = 3usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "Master Period"]
# [inline (always)]
pub const fn mstper (& self) -> super :: vals :: Inactiveeffect { let val = (self . 0 >> 7usize) & 0x01 ; super :: vals :: Inactiveeffect :: from_bits (val as u8) } # [doc = "Master Period"]
# [inline (always)]
pub fn set_mstper (& mut self , val : super :: vals :: Inactiveeffect) { self . 0 = (self . 0 & ! (0x01 << 7usize)) | (((val . to_bits () as u32) & 0x01) << 7usize) ; } # [doc = "Master Compare X"]
# [inline (always)]
pub const fn mstcmp (& self , n : usize) -> super :: vals :: Inactiveeffect { assert ! (n < 4usize) ; let offs = 8usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Inactiveeffect :: from_bits (val as u8) } # [doc = "Master Compare X"]
# [inline (always)]
pub fn set_mstcmp (& mut self , n : usize , val : super :: vals :: Inactiveeffect) { assert ! (n < 4usize) ; let offs = 8usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "Timer Event X"]
# [inline (always)]
pub const fn timevnt (& self , n : usize) -> super :: vals :: Inactiveeffect { assert ! (n < 9usize) ; let offs = 12usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Inactiveeffect :: from_bits (val as u8) } # [doc = "Timer Event X"]
# [inline (always)]
pub fn set_timevnt (& mut self , n : usize , val : super :: vals :: Inactiveeffect) { assert ! (n < 9usize) ; let offs = 12usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "External Event X"]
# [inline (always)]
pub const fn extevnt (& self , n : usize) -> super :: vals :: Inactiveeffect { assert ! (n < 10usize) ; let offs = 21usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Inactiveeffect :: from_bits (val as u8) } # [doc = "External Event X"]
# [inline (always)]
pub fn set_extevnt (& mut self , n : usize , val : super :: vals :: Inactiveeffect) { assert ! (n < 10usize) ; let offs = 21usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "Registers update (transfer preload to active)"]
# [inline (always)]
pub const fn update (& self) -> super :: vals :: Inactiveeffect { let val = (self . 0 >> 31usize) & 0x01 ; super :: vals :: Inactiveeffect :: from_bits (val as u8) } # [doc = "Registers update (transfer preload to active)"]
# [inline (always)]
pub fn set_update (& mut self , val : super :: vals :: Inactiveeffect) { self . 0 = (self . 0 & ! (0x01 << 31usize)) | (((val . to_bits () as u32) & 0x01) << 31usize) ; } } impl Default for Timxrstr { # [inline (always)]
fn default () -> Timxrstr { Timxrstr (0) } } # [doc = "Timerx OutputX Set Register"]
# [repr (transparent)]
# [derive (Copy , Clone , Eq , PartialEq)]
pub struct Timxsetr (pub u32) ; impl Timxsetr { # [doc = "Software Set trigger"]
# [inline (always)]
pub const fn sst (& self) -> super :: vals :: Activeeffect { let val = (self . 0 >> 0usize) & 0x01 ; super :: vals :: Activeeffect :: from_bits (val as u8) } # [doc = "Software Set trigger"]
# [inline (always)]
pub fn set_sst (& mut self , val : super :: vals :: Activeeffect) { self . 0 = (self . 0 & ! (0x01 << 0usize)) | (((val . to_bits () as u32) & 0x01) << 0usize) ; } # [doc = "Timer X resynchronizaton"]
# [inline (always)]
pub const fn resync (& self) -> super :: vals :: Activeeffect { let val = (self . 0 >> 1usize) & 0x01 ; super :: vals :: Activeeffect :: from_bits (val as u8) } # [doc = "Timer X resynchronizaton"]
# [inline (always)]
pub fn set_resync (& mut self , val : super :: vals :: Activeeffect) { self . 0 = (self . 0 & ! (0x01 << 1usize)) | (((val . to_bits () as u32) & 0x01) << 1usize) ; } # [doc = "Timer X Period"]
# [inline (always)]
pub const fn per (& self) -> super :: vals :: Activeeffect { let val = (self . 0 >> 2usize) & 0x01 ; super :: vals :: Activeeffect :: from_bits (val as u8) } # [doc = "Timer X Period"]
# [inline (always)]
pub fn set_per (& mut self , val : super :: vals :: Activeeffect) { self . 0 = (self . 0 & ! (0x01 << 2usize)) | (((val . to_bits () as u32) & 0x01) << 2usize) ; } # [doc = "Timer X compare X"]
# [inline (always)]
pub const fn cmp (& self , n : usize) -> super :: vals :: Activeeffect { assert ! (n < 4usize) ; let offs = 3usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Activeeffect :: from_bits (val as u8) } # [doc = "Timer X compare X"]
# [inline (always)]
pub fn set_cmp (& mut self , n : usize , val : super :: vals :: Activeeffect) { assert ! (n < 4usize) ; let offs = 3usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "Master Period"]
# [inline (always)]
pub const fn mstper (& self) -> super :: vals :: Activeeffect { let val = (self . 0 >> 7usize) & 0x01 ; super :: vals :: Activeeffect :: from_bits (val as u8) } # [doc = "Master Period"]
# [inline (always)]
pub fn set_mstper (& mut self , val : super :: vals :: Activeeffect) { self . 0 = (self . 0 & ! (0x01 << 7usize)) | (((val . to_bits () as u32) & 0x01) << 7usize) ; } # [doc = "Master Compare X"]
# [inline (always)]
pub const fn mstcmpx (& self , n : usize) -> super :: vals :: Activeeffect { assert ! (n < 4usize) ; let offs = 8usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Activeeffect :: from_bits (val as u8) } # [doc = "Master Compare X"]
# [inline (always)]
pub fn set_mstcmpx (& mut self , n : usize , val : super :: vals :: Activeeffect) { assert ! (n < 4usize) ; let offs = 8usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "Timer Event X"]
# [inline (always)]
pub const fn timevnt (& self , n : usize) -> super :: vals :: Activeeffect { assert ! (n < 9usize) ; let offs = 12usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Activeeffect :: from_bits (val as u8) } # [doc = "Timer Event X"]
# [inline (always)]
pub fn set_timevnt (& mut self , n : usize , val : super :: vals :: Activeeffect) { assert ! (n < 9usize) ; let offs = 12usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "External Event X"]
# [inline (always)]
pub const fn extevnt (& self , n : usize) -> super :: vals :: Activeeffect { assert ! (n < 10usize) ; let offs = 21usize + n * 1usize ; let val = (self . 0 >> offs) & 0x01 ; super :: vals :: Activeeffect :: from_bits (val as u8) } # [doc = "External Event X"]
# [inline (always)]
pub fn set_extevnt (& mut self , n : usize , val : super :: vals :: Activeeffect) { assert ! (n < 10usize) ; let offs = 21usize + n * 1usize ; self . 0 = (self . 0 & ! (0x01 << offs)) | (((val . to_bits () as u32) & 0x01) << offs) ; } # [doc = "Registers update (transfer preload to active)"]
# [inline (always)]
pub const fn update (& self) -> super :: vals :: Activeeffect { let val = (self . 0 >> 31usize) & 0x01 ; super :: vals :: Activeeffect :: from_bits (val as u8) } # [doc = "Registers update (transfer preload to active)"]
# [inline (always)]
pub fn set_update (& mut self , val : super :: vals :: Activeeffect) { self . 0 = (self . 0 & ! (0x01 << 31usize)) | (((val . to_bits () as u32) & 0x01) << 31usize) ; } } impl Default for Timxsetr { # [inline (always)]
fn default () -> Timxsetr { Timxsetr (0) } } } pub mod vals { # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Activeeffect { # [doc = "Timer event has no effect"]
NOEFFECT = 0x0 , # [doc = "Timer event forces the output to its active state"]
SETACTIVE = 0x01 , } impl Activeeffect { # [inline (always)]
pub const fn from_bits (val : u8) -> Activeeffect { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Activeeffect { # [inline (always)]
fn from (val : u8) -> Activeeffect { Activeeffect :: from_bits (val) } } impl From < Activeeffect > for u8 { # [inline (always)]
fn from (val : Activeeffect) -> u8 { Activeeffect :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Brstdma { # [doc = "Update done independently from the DMA burst transfer completion"]
INDEPENDENT = 0x0 , # [doc = "Update done when the DMA burst transfer is completed"]
COMPLETION = 0x01 , # [doc = "Update done on master timer roll-over following a DMA burst transfer completion"]
ROLLOVER = 0x02 , _RESERVED_3 = 0x03 , } impl Brstdma { # [inline (always)]
pub const fn from_bits (val : u8) -> Brstdma { unsafe { core :: mem :: transmute (val & 0x03) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Brstdma { # [inline (always)]
fn from (val : u8) -> Brstdma { Brstdma :: from_bits (val) } } impl From < Brstdma > for u8 { # [inline (always)]
fn from (val : Brstdma) -> u8 { Brstdma :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Captureeffect { # [doc = "Timer event has no effect"]
NOEFFECT = 0x0 , # [doc = "Timer event triggers capture"]
TRIGGERCAPTURE = 0x01 , } impl Captureeffect { # [inline (always)]
pub const fn from_bits (val : u8) -> Captureeffect { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Captureeffect { # [inline (always)]
fn from (val : u8) -> Captureeffect { Captureeffect :: from_bits (val) } } impl From < Captureeffect > for u8 { # [inline (always)]
fn from (val : Captureeffect) -> u8 { Captureeffect :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Cppstat { # [doc = "Signal applied on output 1 and output 2 forced inactive"]
OUTPUT1ACTIVE = 0x0 , # [doc = "Signal applied on output 2 and output 1 forced inactive"]
OUTPUT2ACTIVE = 0x01 , } impl Cppstat { # [inline (always)]
pub const fn from_bits (val : u8) -> Cppstat { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Cppstat { # [inline (always)]
fn from (val : u8) -> Cppstat { Cppstat :: from_bits (val) } } impl From < Cppstat > for u8 { # [inline (always)]
fn from (val : Cppstat) -> u8 { Cppstat :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Dacsync { # [doc = "No DAC trigger generated"]
DISABLED = 0x0 , # [doc = "Trigger generated on DACSync1"]
DACSYNC1 = 0x01 , # [doc = "Trigger generated on DACSync2"]
DACSYNC2 = 0x02 , # [doc = "Trigger generated on DACSync3"]
DACSYNC3 = 0x03 , } impl Dacsync { # [inline (always)]
pub const fn from_bits (val : u8) -> Dacsync { unsafe { core :: mem :: transmute (val & 0x03) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Dacsync { # [inline (always)]
fn from (val : u8) -> Dacsync { Dacsync :: from_bits (val) } } impl From < Dacsync > for u8 { # [inline (always)]
fn from (val : Dacsync) -> u8 { Dacsync :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Delcmp { # [doc = "CMP register is always active (standard compare mode)"]
STANDARD = 0x0 , # [doc = "CMP is recomputed and is active following a capture 1 event"]
CAPTURE1 = 0x01 , # [doc = "CMP is recomputed and is active following a capture 1 event or a Compare 1 match"]
CAPTUREX_COMPARE1 = 0x02 , # [doc = "CMP is recomputed and is active following a capture 1 event or a Compare 3 match"]
CAPTUREX_COMPARE3 = 0x03 , } impl Delcmp { # [inline (always)]
pub const fn from_bits (val : u8) -> Delcmp { unsafe { core :: mem :: transmute (val & 0x03) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Delcmp { # [inline (always)]
fn from (val : u8) -> Delcmp { Delcmp :: from_bits (val) } } impl From < Delcmp > for u8 { # [inline (always)]
fn from (val : Delcmp) -> u8 { Delcmp :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Dlyprt { # [doc = "Output 1 delayed idle on external event 6"]
OUTPUT1_EE6 = 0x0 , # [doc = "Output 2 delayed idle on external event 6"]
OUTPUT2_EE6 = 0x01 , # [doc = "Output 1 and 2 delayed idle on external event 6"]
OUTPUT1_2_EE6 = 0x02 , # [doc = "Balanced idle on external event 6"]
BALANCED_EE6 = 0x03 , # [doc = "Output 1 delayed idle on external event 7"]
OUTPUT1_EE7 = 0x04 , # [doc = "Output 2 delayed idle on external event 7"]
OUTPUT2_EE7 = 0x05 , # [doc = "Output 1 and 2 delayed idle on external event 7"]
OUTPUT1_2_EE7 = 0x06 , # [doc = "Balanced idle on external event 7"]
BALANCED_EE7 = 0x07 , } impl Dlyprt { # [inline (always)]
pub const fn from_bits (val : u8) -> Dlyprt { unsafe { core :: mem :: transmute (val & 0x07) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Dlyprt { # [inline (always)]
fn from (val : u8) -> Dlyprt { Dlyprt :: from_bits (val) } } impl From < Dlyprt > for u8 { # [inline (always)]
fn from (val : Dlyprt) -> u8 { Dlyprt :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Eefltr { # [doc = "No filtering"]
DISABLED = 0x0 , # [doc = "Blanking from counter reset/roll-over to Compare 1"]
BLANKRESETTOCOMPARE1 = 0x01 , # [doc = "Blanking from counter reset/roll-over to Compare 2"]
BLANKRESETTOCOMPARE2 = 0x02 , # [doc = "Blanking from counter reset/roll-over to Compare 3"]
BLANKRESETTOCOMPARE3 = 0x03 , # [doc = "Blanking from counter reset/roll-over to Compare 4"]
BLANKRESETTOCOMPARE4 = 0x04 , # [doc = "Blanking from another timing unit: TIMFLTR1 source"]
BLANKTIMFLTR1 = 0x05 , # [doc = "Blanking from another timing unit: TIMFLTR2 source"]
BLANKTIMFLTR2 = 0x06 , # [doc = "Blanking from another timing unit: TIMFLTR3 source"]
BLANKTIMFLTR3 = 0x07 , # [doc = "Blanking from another timing unit: TIMFLTR4 source"]
BLANKTIMFLTR4 = 0x08 , # [doc = "Blanking from another timing unit: TIMFLTR5 source"]
BLANKTIMFLTR5 = 0x09 , # [doc = "Blanking from another timing unit: TIMFLTR6 source"]
BLANKTIMFLTR6 = 0x0a , # [doc = "Blanking from another timing unit: TIMFLTR7 source"]
BLANKTIMFLTR7 = 0x0b , # [doc = "Blanking from another timing unit: TIMFLTR8 source"]
BLANKTIMFLTR8 = 0x0c , # [doc = "Windowing from counter reset/roll-over to compare 2"]
WINDOWRESETTOCOMPARE2 = 0x0d , # [doc = "Windowing from counter reset/roll-over to compare 3"]
WINDOWRESETTOCOMPARE3 = 0x0e , # [doc = "Windowing from another timing unit: TIMWIN source"]
WINDOWTIMWIN = 0x0f , } impl Eefltr { # [inline (always)]
pub const fn from_bits (val : u8) -> Eefltr { unsafe { core :: mem :: transmute (val & 0x0f) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Eefltr { # [inline (always)]
fn from (val : u8) -> Eefltr { Eefltr :: from_bits (val) } } impl From < Eefltr > for u8 { # [inline (always)]
fn from (val : Eefltr) -> u8 { Eefltr :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Fault { # [doc = "No action: the output is not affected by the fault input and stays in run mode"]
DISABLED = 0x0 , # [doc = "Output goes to active state after a fault event"]
SETACTIVE = 0x01 , # [doc = "Output goes to inactive state after a fault event"]
SETINACTIVE = 0x02 , # [doc = "Output goes to high-z state after a fault event"]
SETHIGHZ = 0x03 , } impl Fault { # [inline (always)]
pub const fn from_bits (val : u8) -> Fault { unsafe { core :: mem :: transmute (val & 0x03) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Fault { # [inline (always)]
fn from (val : u8) -> Fault { Fault :: from_bits (val) } } impl From < Fault > for u8 { # [inline (always)]
fn from (val : Fault) -> u8 { Fault :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Flten { # [doc = "Fault input ignored"]
IGNORED = 0x0 , # [doc = "Fault input is active and can disable HRTIM outputs"]
ACTIVE = 0x01 , } impl Flten { # [inline (always)]
pub const fn from_bits (val : u8) -> Flten { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Flten { # [inline (always)]
fn from (val : u8) -> Flten { Flten :: from_bits (val) } } impl From < Flten > for u8 { # [inline (always)]
fn from (val : Flten) -> u8 { Flten :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Inactiveeffect { # [doc = "Timer event has no effect"]
NOEFFECT = 0x0 , # [doc = "Timer event forces the output to its inactive state"]
SETINACTIVE = 0x01 , } impl Inactiveeffect { # [inline (always)]
pub const fn from_bits (val : u8) -> Inactiveeffect { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Inactiveeffect { # [inline (always)]
fn from (val : u8) -> Inactiveeffect { Inactiveeffect :: from_bits (val) } } impl From < Inactiveeffect > for u8 { # [inline (always)]
fn from (val : Inactiveeffect) -> u8 { Inactiveeffect :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Ippstat { # [doc = "Protection occurred when the output 1 was active and output 2 forced inactive"]
OUTPUT1ACTIVE = 0x0 , # [doc = "Protection occurred when the output 2 was active and output 1 forced inactive"]
OUTPUT2ACTIVE = 0x01 , } impl Ippstat { # [inline (always)]
pub const fn from_bits (val : u8) -> Ippstat { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Ippstat { # [inline (always)]
fn from (val : u8) -> Ippstat { Ippstat :: from_bits (val) } } impl From < Ippstat > for u8 { # [inline (always)]
fn from (val : Ippstat) -> u8 { Ippstat :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Outputstate { # [doc = "Output is or was inactive"]
INACTIVE = 0x0 , # [doc = "Output is or was active"]
ACTIVE = 0x01 , } impl Outputstate { # [inline (always)]
pub const fn from_bits (val : u8) -> Outputstate { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Outputstate { # [inline (always)]
fn from (val : u8) -> Outputstate { Outputstate :: from_bits (val) } } impl From < Outputstate > for u8 { # [inline (always)]
fn from (val : Outputstate) -> u8 { Outputstate :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Pol { # [doc = "Positive polarity (output active high)"]
ACTIVEHIGH = 0x0 , # [doc = "Negative polarity (output active low)"]
ACTIVELOW = 0x01 , } impl Pol { # [inline (always)]
pub const fn from_bits (val : u8) -> Pol { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Pol { # [inline (always)]
fn from (val : u8) -> Pol { Pol :: from_bits (val) } } impl From < Pol > for u8 { # [inline (always)]
fn from (val : Pol) -> u8 { Pol :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Reseteffect { # [doc = "Timer Y compare Z event has no effect"]
NOEFFECT = 0x0 , # [doc = "Timer X counter is reset upon timer Y compare Z event"]
RESETCOUNTER = 0x01 , } impl Reseteffect { # [inline (always)]
pub const fn from_bits (val : u8) -> Reseteffect { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Reseteffect { # [inline (always)]
fn from (val : u8) -> Reseteffect { Reseteffect :: from_bits (val) } } impl From < Reseteffect > for u8 { # [inline (always)]
fn from (val : Reseteffect) -> u8 { Reseteffect :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Sdtf { # [doc = "Positive deadtime on falling edge"]
POSITIVE = 0x0 , # [doc = "Negative deadtime on falling edge"]
NEGATIVE = 0x01 , } impl Sdtf { # [inline (always)]
pub const fn from_bits (val : u8) -> Sdtf { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Sdtf { # [inline (always)]
fn from (val : u8) -> Sdtf { Sdtf :: from_bits (val) } } impl From < Sdtf > for u8 { # [inline (always)]
fn from (val : Sdtf) -> u8 { Sdtf :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Sdtr { # [doc = "Positive deadtime on rising edge"]
POSITIVE = 0x0 , # [doc = "Negative deadtime on rising edge"]
NEGATIVE = 0x01 , } impl Sdtr { # [inline (always)]
pub const fn from_bits (val : u8) -> Sdtr { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Sdtr { # [inline (always)]
fn from (val : u8) -> Sdtr { Sdtr :: from_bits (val) } } impl From < Sdtr > for u8 { # [inline (always)]
fn from (val : Sdtr) -> u8 { Sdtr :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Syncin { # [doc = "Disabled. HRTIM is not synchronized and runs in standalone mode"]
DISABLED = 0x0 , _RESERVED_1 = 0x01 , # [doc = "Internal event: the HRTIM is synchronized with the on-chip timer"]
INTERNAL = 0x02 , # [doc = "External event: a positive pulse on HRTIM_SCIN input triggers the HRTIM"]
EXTERNAL = 0x03 , } impl Syncin { # [inline (always)]
pub const fn from_bits (val : u8) -> Syncin { unsafe { core :: mem :: transmute (val & 0x03) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Syncin { # [inline (always)]
fn from (val : u8) -> Syncin { Syncin :: from_bits (val) } } impl From < Syncin > for u8 { # [inline (always)]
fn from (val : Syncin) -> u8 { Syncin :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Syncout { # [doc = "Disabled"]
DISABLED = 0x0 , _RESERVED_1 = 0x01 , # [doc = "Positive pulse on SCOUT output (16x f_HRTIM clock cycles)"]
POSITIVEPULSE = 0x02 , # [doc = "Negative pulse on SCOUT output (16x f_HRTIM clock cycles)"]
NEGATIVEPULSE = 0x03 , } impl Syncout { # [inline (always)]
pub const fn from_bits (val : u8) -> Syncout { unsafe { core :: mem :: transmute (val & 0x03) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Syncout { # [inline (always)]
fn from (val : u8) -> Syncout { Syncout :: from_bits (val) } } impl From < Syncout > for u8 { # [inline (always)]
fn from (val : Syncout) -> u8 { Syncout :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Syncrst { # [doc = "Synchronization event has no effect on Timer x"]
DISABLED = 0x0 , # [doc = "Synchronization event resets Timer x"]
RESET = 0x01 , } impl Syncrst { # [inline (always)]
pub const fn from_bits (val : u8) -> Syncrst { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Syncrst { # [inline (always)]
fn from (val : u8) -> Syncrst { Syncrst :: from_bits (val) } } impl From < Syncrst > for u8 { # [inline (always)]
fn from (val : Syncrst) -> u8 { Syncrst :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Syncsrc { # [doc = "Master timer Start"]
MASTERSTART = 0x0 , # [doc = "Master timer Compare 1 event"]
MASTERCOMPARE1 = 0x01 , # [doc = "Timer A start/reset"]
TIMERASTART = 0x02 , # [doc = "Timer A Compare 1 event"]
TIMERACOMPARE1 = 0x03 , } impl Syncsrc { # [inline (always)]
pub const fn from_bits (val : u8) -> Syncsrc { unsafe { core :: mem :: transmute (val & 0x03) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Syncsrc { # [inline (always)]
fn from (val : u8) -> Syncsrc { Syncsrc :: from_bits (val) } } impl From < Syncsrc > for u8 { # [inline (always)]
fn from (val : Syncsrc) -> u8 { Syncsrc :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Syncstrt { # [doc = "Synchronization event has no effect on Timer x"]
DISABLED = 0x0 , # [doc = "Synchronization event starts Timer x"]
START = 0x01 , } impl Syncstrt { # [inline (always)]
pub const fn from_bits (val : u8) -> Syncstrt { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Syncstrt { # [inline (always)]
fn from (val : u8) -> Syncstrt { Syncstrt :: from_bits (val) } } impl From < Syncstrt > for u8 { # [inline (always)]
fn from (val : Syncstrt) -> u8 { Syncstrt :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum TimaisrDlyprt { # [doc = "Not in delayed idle or balanced idle mode"]
INACTIVE = 0x0 , # [doc = "Delayed idle or balanced idle mode entry"]
ACTIVE = 0x01 , } impl TimaisrDlyprt { # [inline (always)]
pub const fn from_bits (val : u8) -> TimaisrDlyprt { unsafe { core :: mem :: transmute (val & 0x01) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for TimaisrDlyprt { # [inline (always)]
fn from (val : u8) -> TimaisrDlyprt { TimaisrDlyprt :: from_bits (val) } } impl From < TimaisrDlyprt > for u8 { # [inline (always)]
fn from (val : TimaisrDlyprt) -> u8 { TimaisrDlyprt :: to_bits (val) } } # [repr (u8)]
# [derive (Copy , Clone , Eq , PartialEq , Ord , PartialOrd)]
pub enum Updgat { # [doc = "Update occurs independently from the DMA burst transfer"]
INDEPENDENT = 0x0 , # [doc = "Update occurs when the DMA burst transfer is completed"]
DMABURST = 0x01 , # [doc = "Update occurs on the update event following DMA burst transfer completion"]
DMABURST_UPDATE = 0x02 , # [doc = "Update occurs on a rising edge of HRTIM update enable input 1"]
INPUT1 = 0x03 , # [doc = "Update occurs on a rising edge of HRTIM update enable input 2"]
INPUT2 = 0x04 , # [doc = "Update occurs on a rising edge of HRTIM update enable input 3"]
INPUT3 = 0x05 , # [doc = "Update occurs on the update event following a rising edge of HRTIM update enable input 1"]
INPUT1_UPDATE = 0x06 , # [doc = "Update occurs on the update event following a rising edge of HRTIM update enable input 2"]
INPUT2_UPDATE = 0x07 , # [doc = "Update occurs on the update event following a rising edge of HRTIM update enable input 3"]
INPUT3_UPDATE = 0x08 , _RESERVED_9 = 0x09 , _RESERVED_a = 0x0a , _RESERVED_b = 0x0b , _RESERVED_c = 0x0c , _RESERVED_d = 0x0d , _RESERVED_e = 0x0e , _RESERVED_f = 0x0f , } impl Updgat { # [inline (always)]
pub const fn from_bits (val : u8) -> Updgat { unsafe { core :: mem :: transmute (val & 0x0f) } } # [inline (always)]
pub const fn to_bits (self) -> u8 { unsafe { core :: mem :: transmute (self) } } } impl From < u8 > for Updgat { # [inline (always)]
fn from (val : u8) -> Updgat { Updgat :: from_bits (val) } } impl From < Updgat > for u8 { # [inline (always)]
fn from (val : Updgat) -> u8 { Updgat :: to_bits (val) } } }