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#[ doc = r " Value read from the register " ]
pub struct R {
bits : u32 ,
}
#[ doc = r " Value to write to the register " ]
pub struct W {
bits : u32 ,
}
impl super ::PCR5 {
#[ doc = r " Modifies the contents of the register " ]
#[ inline ]
pub fn modify < F > ( & self , f : F )
where
for < ' w > F : FnOnce ( & R , & ' w mut W ) -> & ' w mut W ,
{
let bits = self . register . get ( ) ;
let r = R { bits : bits } ;
let mut w = W { bits : bits } ;
f ( & r , & mut w ) ;
self . register . set ( w . bits ) ;
}
#[ doc = r " Reads the contents of the register " ]
#[ inline ]
pub fn read ( & self ) -> R {
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R {
bits : self . register . get ( ) ,
}
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}
#[ doc = r " Writes to the register " ]
#[ inline ]
pub fn write < F > ( & self , f : F )
where
F : FnOnce ( & mut W ) -> & mut W ,
{
let mut w = W ::reset_value ( ) ;
f ( & mut w ) ;
self . register . set ( w . bits ) ;
}
#[ doc = r " Writes the reset value to the register " ]
#[ inline ]
pub fn reset ( & self ) {
self . write ( | w | w )
}
}
#[ doc = " Possible values of the field `PS` " ]
#[ derive(Clone, Copy, Debug, PartialEq) ]
pub enum PSR {
#[ doc = " Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. " ]
_0 ,
#[ doc = " Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. " ]
_1 ,
}
impl PSR {
#[ doc = r " Returns `true` if the bit is clear (0) " ]
#[ inline ]
pub fn bit_is_clear ( & self ) -> bool {
! self . bit ( )
}
#[ doc = r " Returns `true` if the bit is set (1) " ]
#[ inline ]
pub fn bit_is_set ( & self ) -> bool {
self . bit ( )
}
#[ doc = r " Value of the field as raw bits " ]
#[ inline ]
pub fn bit ( & self ) -> bool {
match * self {
PSR ::_0 = > false ,
PSR ::_1 = > true ,
}
}
#[ allow(missing_docs) ]
#[ doc(hidden) ]
#[ inline ]
pub fn _from ( value : bool ) -> PSR {
match value {
false = > PSR ::_0 ,
true = > PSR ::_1 ,
}
}
#[ doc = " Checks if the value of the field is `_0` " ]
#[ inline ]
pub fn is_0 ( & self ) -> bool {
* self = = PSR ::_0
}
#[ doc = " Checks if the value of the field is `_1` " ]
#[ inline ]
pub fn is_1 ( & self ) -> bool {
* self = = PSR ::_1
}
}
#[ doc = " Possible values of the field `PE` " ]
#[ derive(Clone, Copy, Debug, PartialEq) ]
pub enum PER {
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#[ doc = " Internal pullup or pulldown resistor is not enabled on the corresponding pin. " ] _0 ,
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#[ doc = " Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. " ]
_1 ,
}
impl PER {
#[ doc = r " Returns `true` if the bit is clear (0) " ]
#[ inline ]
pub fn bit_is_clear ( & self ) -> bool {
! self . bit ( )
}
#[ doc = r " Returns `true` if the bit is set (1) " ]
#[ inline ]
pub fn bit_is_set ( & self ) -> bool {
self . bit ( )
}
#[ doc = r " Value of the field as raw bits " ]
#[ inline ]
pub fn bit ( & self ) -> bool {
match * self {
PER ::_0 = > false ,
PER ::_1 = > true ,
}
}
#[ allow(missing_docs) ]
#[ doc(hidden) ]
#[ inline ]
pub fn _from ( value : bool ) -> PER {
match value {
false = > PER ::_0 ,
true = > PER ::_1 ,
}
}
#[ doc = " Checks if the value of the field is `_0` " ]
#[ inline ]
pub fn is_0 ( & self ) -> bool {
* self = = PER ::_0
}
#[ doc = " Checks if the value of the field is `_1` " ]
#[ inline ]
pub fn is_1 ( & self ) -> bool {
* self = = PER ::_1
}
}
#[ doc = " Possible values of the field `DSE` " ]
#[ derive(Clone, Copy, Debug, PartialEq) ]
pub enum DSER {
#[ doc = " Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. " ]
_0 ,
#[ doc = " High drive strength is configured on the corresponding pin, if pin is configured as a digital output. " ]
_1 ,
}
impl DSER {
#[ doc = r " Returns `true` if the bit is clear (0) " ]
#[ inline ]
pub fn bit_is_clear ( & self ) -> bool {
! self . bit ( )
}
#[ doc = r " Returns `true` if the bit is set (1) " ]
#[ inline ]
pub fn bit_is_set ( & self ) -> bool {
self . bit ( )
}
#[ doc = r " Value of the field as raw bits " ]
#[ inline ]
pub fn bit ( & self ) -> bool {
match * self {
DSER ::_0 = > false ,
DSER ::_1 = > true ,
}
}
#[ allow(missing_docs) ]
#[ doc(hidden) ]
#[ inline ]
pub fn _from ( value : bool ) -> DSER {
match value {
false = > DSER ::_0 ,
true = > DSER ::_1 ,
}
}
#[ doc = " Checks if the value of the field is `_0` " ]
#[ inline ]
pub fn is_0 ( & self ) -> bool {
* self = = DSER ::_0
}
#[ doc = " Checks if the value of the field is `_1` " ]
#[ inline ]
pub fn is_1 ( & self ) -> bool {
* self = = DSER ::_1
}
}
#[ doc = " Possible values of the field `MUX` " ]
#[ derive(Clone, Copy, Debug, PartialEq) ]
pub enum MUXR {
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#[ doc = " Pin disabled (Alternative 0) (analog). " ] _000 ,
#[ doc = " Alternative 1 (GPIO). " ] _001 ,
#[ doc = " Alternative 2 (chip-specific). " ] _010 ,
#[ doc = " Alternative 3 (chip-specific). " ] _011 ,
#[ doc = " Alternative 4 (chip-specific). " ] _100 ,
#[ doc = " Alternative 5 (chip-specific). " ] _101 ,
#[ doc = " Alternative 6 (chip-specific). " ] _110 ,
#[ doc = " Alternative 7 (chip-specific). " ] _111 ,
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}
impl MUXR {
#[ doc = r " Value of the field as raw bits " ]
#[ inline ]
pub fn bits ( & self ) -> u8 {
match * self {
MUXR ::_000 = > 0 ,
MUXR ::_001 = > 1 ,
MUXR ::_010 = > 2 ,
MUXR ::_011 = > 3 ,
MUXR ::_100 = > 4 ,
MUXR ::_101 = > 5 ,
MUXR ::_110 = > 6 ,
MUXR ::_111 = > 7 ,
}
}
#[ allow(missing_docs) ]
#[ doc(hidden) ]
#[ inline ]
pub fn _from ( value : u8 ) -> MUXR {
match value {
0 = > MUXR ::_000 ,
1 = > MUXR ::_001 ,
2 = > MUXR ::_010 ,
3 = > MUXR ::_011 ,
4 = > MUXR ::_100 ,
5 = > MUXR ::_101 ,
6 = > MUXR ::_110 ,
7 = > MUXR ::_111 ,
_ = > unreachable! ( ) ,
}
}
#[ doc = " Checks if the value of the field is `_000` " ]
#[ inline ]
pub fn is_000 ( & self ) -> bool {
* self = = MUXR ::_000
}
#[ doc = " Checks if the value of the field is `_001` " ]
#[ inline ]
pub fn is_001 ( & self ) -> bool {
* self = = MUXR ::_001
}
#[ doc = " Checks if the value of the field is `_010` " ]
#[ inline ]
pub fn is_010 ( & self ) -> bool {
* self = = MUXR ::_010
}
#[ doc = " Checks if the value of the field is `_011` " ]
#[ inline ]
pub fn is_011 ( & self ) -> bool {
* self = = MUXR ::_011
}
#[ doc = " Checks if the value of the field is `_100` " ]
#[ inline ]
pub fn is_100 ( & self ) -> bool {
* self = = MUXR ::_100
}
#[ doc = " Checks if the value of the field is `_101` " ]
#[ inline ]
pub fn is_101 ( & self ) -> bool {
* self = = MUXR ::_101
}
#[ doc = " Checks if the value of the field is `_110` " ]
#[ inline ]
pub fn is_110 ( & self ) -> bool {
* self = = MUXR ::_110
}
#[ doc = " Checks if the value of the field is `_111` " ]
#[ inline ]
pub fn is_111 ( & self ) -> bool {
* self = = MUXR ::_111
}
}
#[ doc = " Possible values of the field `LK` " ]
#[ derive(Clone, Copy, Debug, PartialEq) ]
pub enum LKR {
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#[ doc = " Pin Control Register fields [15:0] are not locked. " ] _0 ,
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#[ doc = " Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset. " ]
_1 ,
}
impl LKR {
#[ doc = r " Returns `true` if the bit is clear (0) " ]
#[ inline ]
pub fn bit_is_clear ( & self ) -> bool {
! self . bit ( )
}
#[ doc = r " Returns `true` if the bit is set (1) " ]
#[ inline ]
pub fn bit_is_set ( & self ) -> bool {
self . bit ( )
}
#[ doc = r " Value of the field as raw bits " ]
#[ inline ]
pub fn bit ( & self ) -> bool {
match * self {
LKR ::_0 = > false ,
LKR ::_1 = > true ,
}
}
#[ allow(missing_docs) ]
#[ doc(hidden) ]
#[ inline ]
pub fn _from ( value : bool ) -> LKR {
match value {
false = > LKR ::_0 ,
true = > LKR ::_1 ,
}
}
#[ doc = " Checks if the value of the field is `_0` " ]
#[ inline ]
pub fn is_0 ( & self ) -> bool {
* self = = LKR ::_0
}
#[ doc = " Checks if the value of the field is `_1` " ]
#[ inline ]
pub fn is_1 ( & self ) -> bool {
* self = = LKR ::_1
}
}
#[ doc = " Possible values of the field `IRQC` " ]
#[ derive(Clone, Copy, Debug, PartialEq) ]
pub enum IRQCR {
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#[ doc = " Interrupt Status Flag (ISF) is disabled. " ] _0000 ,
#[ doc = " ISF flag and DMA request on rising edge. " ] _0001 ,
#[ doc = " ISF flag and DMA request on falling edge. " ] _0010 ,
#[ doc = " ISF flag and DMA request on either edge. " ] _0011 ,
#[ doc = " ISF flag and Interrupt when logic 0. " ] _1000 ,
#[ doc = " ISF flag and Interrupt on rising-edge. " ] _1001 ,
#[ doc = " ISF flag and Interrupt on falling-edge. " ] _1010 ,
#[ doc = " ISF flag and Interrupt on either edge. " ] _1011 ,
#[ doc = " ISF flag and Interrupt when logic 1. " ] _1100 ,
#[ doc = r " Reserved " ] _Reserved ( u8 ) ,
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}
impl IRQCR {
#[ doc = r " Value of the field as raw bits " ]
#[ inline ]
pub fn bits ( & self ) -> u8 {
match * self {
IRQCR ::_0000 = > 0 ,
IRQCR ::_0001 = > 1 ,
IRQCR ::_0010 = > 2 ,
IRQCR ::_0011 = > 3 ,
IRQCR ::_1000 = > 8 ,
IRQCR ::_1001 = > 9 ,
IRQCR ::_1010 = > 10 ,
IRQCR ::_1011 = > 11 ,
IRQCR ::_1100 = > 12 ,
IRQCR ::_Reserved ( bits ) = > bits ,
}
}
#[ allow(missing_docs) ]
#[ doc(hidden) ]
#[ inline ]
pub fn _from ( value : u8 ) -> IRQCR {
match value {
0 = > IRQCR ::_0000 ,
1 = > IRQCR ::_0001 ,
2 = > IRQCR ::_0010 ,
3 = > IRQCR ::_0011 ,
8 = > IRQCR ::_1000 ,
9 = > IRQCR ::_1001 ,
10 = > IRQCR ::_1010 ,
11 = > IRQCR ::_1011 ,
12 = > IRQCR ::_1100 ,
i = > IRQCR ::_Reserved ( i ) ,
}
}
#[ doc = " Checks if the value of the field is `_0000` " ]
#[ inline ]
pub fn is_0000 ( & self ) -> bool {
* self = = IRQCR ::_0000
}
#[ doc = " Checks if the value of the field is `_0001` " ]
#[ inline ]
pub fn is_0001 ( & self ) -> bool {
* self = = IRQCR ::_0001
}
#[ doc = " Checks if the value of the field is `_0010` " ]
#[ inline ]
pub fn is_0010 ( & self ) -> bool {
* self = = IRQCR ::_0010
}
#[ doc = " Checks if the value of the field is `_0011` " ]
#[ inline ]
pub fn is_0011 ( & self ) -> bool {
* self = = IRQCR ::_0011
}
#[ doc = " Checks if the value of the field is `_1000` " ]
#[ inline ]
pub fn is_1000 ( & self ) -> bool {
* self = = IRQCR ::_1000
}
#[ doc = " Checks if the value of the field is `_1001` " ]
#[ inline ]
pub fn is_1001 ( & self ) -> bool {
* self = = IRQCR ::_1001
}
#[ doc = " Checks if the value of the field is `_1010` " ]
#[ inline ]
pub fn is_1010 ( & self ) -> bool {
* self = = IRQCR ::_1010
}
#[ doc = " Checks if the value of the field is `_1011` " ]
#[ inline ]
pub fn is_1011 ( & self ) -> bool {
* self = = IRQCR ::_1011
}
#[ doc = " Checks if the value of the field is `_1100` " ]
#[ inline ]
pub fn is_1100 ( & self ) -> bool {
* self = = IRQCR ::_1100
}
}
#[ doc = " Possible values of the field `ISF` " ]
#[ derive(Clone, Copy, Debug, PartialEq) ]
pub enum ISFR {
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#[ doc = " Configured interrupt is not detected. " ] _0 ,
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#[ doc = " Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. " ]
_1 ,
}
impl ISFR {
#[ doc = r " Returns `true` if the bit is clear (0) " ]
#[ inline ]
pub fn bit_is_clear ( & self ) -> bool {
! self . bit ( )
}
#[ doc = r " Returns `true` if the bit is set (1) " ]
#[ inline ]
pub fn bit_is_set ( & self ) -> bool {
self . bit ( )
}
#[ doc = r " Value of the field as raw bits " ]
#[ inline ]
pub fn bit ( & self ) -> bool {
match * self {
ISFR ::_0 = > false ,
ISFR ::_1 = > true ,
}
}
#[ allow(missing_docs) ]
#[ doc(hidden) ]
#[ inline ]
pub fn _from ( value : bool ) -> ISFR {
match value {
false = > ISFR ::_0 ,
true = > ISFR ::_1 ,
}
}
#[ doc = " Checks if the value of the field is `_0` " ]
#[ inline ]
pub fn is_0 ( & self ) -> bool {
* self = = ISFR ::_0
}
#[ doc = " Checks if the value of the field is `_1` " ]
#[ inline ]
pub fn is_1 ( & self ) -> bool {
* self = = ISFR ::_1
}
}
#[ doc = " Values that can be written to the field `PS` " ]
pub enum PSW {
#[ doc = " Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. " ]
_0 ,
#[ doc = " Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. " ]
_1 ,
}
impl PSW {
#[ allow(missing_docs) ]
#[ doc(hidden) ]
#[ inline ]
pub fn _bits ( & self ) -> bool {
match * self {
PSW ::_0 = > false ,
PSW ::_1 = > true ,
}
}
}
#[ doc = r " Proxy " ]
pub struct _PSW < ' a > {
w : & ' a mut W ,
}
impl < ' a > _PSW < ' a > {
#[ doc = r " Writes `variant` to the field " ]
#[ inline ]
pub fn variant ( self , variant : PSW ) -> & ' a mut W {
{
self . bit ( variant . _bits ( ) )
}
}
#[ doc = " Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set. " ]
#[ inline ]
pub fn _0 ( self ) -> & ' a mut W {
self . variant ( PSW ::_0 )
}
#[ doc = " Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set. " ]
#[ inline ]
pub fn _1 ( self ) -> & ' a mut W {
self . variant ( PSW ::_1 )
}
#[ doc = r " Sets the field bit " ]
pub fn set_bit ( self ) -> & ' a mut W {
self . bit ( true )
}
#[ doc = r " Clears the field bit " ]
pub fn clear_bit ( self ) -> & ' a mut W {
self . bit ( false )
}
#[ doc = r " Writes raw bits to the field " ]
#[ inline ]
pub fn bit ( self , value : bool ) -> & ' a mut W {
const MASK : bool = true ;
const OFFSET : u8 = 0 ;
self . w . bits & = ! ( ( MASK as u32 ) < < OFFSET ) ;
self . w . bits | = ( ( value & MASK ) as u32 ) < < OFFSET ;
self . w
}
}
#[ doc = " Values that can be written to the field `PE` " ]
pub enum PEW {
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#[ doc = " Internal pullup or pulldown resistor is not enabled on the corresponding pin. " ] _0 ,
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#[ doc = " Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. " ]
_1 ,
}
impl PEW {
#[ allow(missing_docs) ]
#[ doc(hidden) ]
#[ inline ]
pub fn _bits ( & self ) -> bool {
match * self {
PEW ::_0 = > false ,
PEW ::_1 = > true ,
}
}
}
#[ doc = r " Proxy " ]
pub struct _PEW < ' a > {
w : & ' a mut W ,
}
impl < ' a > _PEW < ' a > {
#[ doc = r " Writes `variant` to the field " ]
#[ inline ]
pub fn variant ( self , variant : PEW ) -> & ' a mut W {
{
self . bit ( variant . _bits ( ) )
}
}
#[ doc = " Internal pullup or pulldown resistor is not enabled on the corresponding pin. " ]
#[ inline ]
pub fn _0 ( self ) -> & ' a mut W {
self . variant ( PEW ::_0 )
}
#[ doc = " Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input. " ]
#[ inline ]
pub fn _1 ( self ) -> & ' a mut W {
self . variant ( PEW ::_1 )
}
#[ doc = r " Sets the field bit " ]
pub fn set_bit ( self ) -> & ' a mut W {
self . bit ( true )
}
#[ doc = r " Clears the field bit " ]
pub fn clear_bit ( self ) -> & ' a mut W {
self . bit ( false )
}
#[ doc = r " Writes raw bits to the field " ]
#[ inline ]
pub fn bit ( self , value : bool ) -> & ' a mut W {
const MASK : bool = true ;
const OFFSET : u8 = 1 ;
self . w . bits & = ! ( ( MASK as u32 ) < < OFFSET ) ;
self . w . bits | = ( ( value & MASK ) as u32 ) < < OFFSET ;
self . w
}
}
#[ doc = " Values that can be written to the field `DSE` " ]
pub enum DSEW {
#[ doc = " Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. " ]
_0 ,
#[ doc = " High drive strength is configured on the corresponding pin, if pin is configured as a digital output. " ]
_1 ,
}
impl DSEW {
#[ allow(missing_docs) ]
#[ doc(hidden) ]
#[ inline ]
pub fn _bits ( & self ) -> bool {
match * self {
DSEW ::_0 = > false ,
DSEW ::_1 = > true ,
}
}
}
#[ doc = r " Proxy " ]
pub struct _DSEW < ' a > {
w : & ' a mut W ,
}
impl < ' a > _DSEW < ' a > {
#[ doc = r " Writes `variant` to the field " ]
#[ inline ]
pub fn variant ( self , variant : DSEW ) -> & ' a mut W {
{
self . bit ( variant . _bits ( ) )
}
}
#[ doc = " Low drive strength is configured on the corresponding pin, if pin is configured as a digital output. " ]
#[ inline ]
pub fn _0 ( self ) -> & ' a mut W {
self . variant ( DSEW ::_0 )
}
#[ doc = " High drive strength is configured on the corresponding pin, if pin is configured as a digital output. " ]
#[ inline ]
pub fn _1 ( self ) -> & ' a mut W {
self . variant ( DSEW ::_1 )
}
#[ doc = r " Sets the field bit " ]
pub fn set_bit ( self ) -> & ' a mut W {
self . bit ( true )
}
#[ doc = r " Clears the field bit " ]
pub fn clear_bit ( self ) -> & ' a mut W {
self . bit ( false )
}
#[ doc = r " Writes raw bits to the field " ]
#[ inline ]
pub fn bit ( self , value : bool ) -> & ' a mut W {
const MASK : bool = true ;
const OFFSET : u8 = 6 ;
self . w . bits & = ! ( ( MASK as u32 ) < < OFFSET ) ;
self . w . bits | = ( ( value & MASK ) as u32 ) < < OFFSET ;
self . w
}
}
#[ doc = " Values that can be written to the field `MUX` " ]
pub enum MUXW {
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#[ doc = " Pin disabled (Alternative 0) (analog). " ] _000 ,
#[ doc = " Alternative 1 (GPIO). " ] _001 ,
#[ doc = " Alternative 2 (chip-specific). " ] _010 ,
#[ doc = " Alternative 3 (chip-specific). " ] _011 ,
#[ doc = " Alternative 4 (chip-specific). " ] _100 ,
#[ doc = " Alternative 5 (chip-specific). " ] _101 ,
#[ doc = " Alternative 6 (chip-specific). " ] _110 ,
#[ doc = " Alternative 7 (chip-specific). " ] _111 ,
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}
impl MUXW {
#[ allow(missing_docs) ]
#[ doc(hidden) ]
#[ inline ]
pub fn _bits ( & self ) -> u8 {
match * self {
MUXW ::_000 = > 0 ,
MUXW ::_001 = > 1 ,
MUXW ::_010 = > 2 ,
MUXW ::_011 = > 3 ,
MUXW ::_100 = > 4 ,
MUXW ::_101 = > 5 ,
MUXW ::_110 = > 6 ,
MUXW ::_111 = > 7 ,
}
}
}
#[ doc = r " Proxy " ]
pub struct _MUXW < ' a > {
w : & ' a mut W ,
}
impl < ' a > _MUXW < ' a > {
#[ doc = r " Writes `variant` to the field " ]
#[ inline ]
pub fn variant ( self , variant : MUXW ) -> & ' a mut W {
{
self . bits ( variant . _bits ( ) )
}
}
#[ doc = " Pin disabled (Alternative 0) (analog). " ]
#[ inline ]
pub fn _000 ( self ) -> & ' a mut W {
self . variant ( MUXW ::_000 )
}
#[ doc = " Alternative 1 (GPIO). " ]
#[ inline ]
pub fn _001 ( self ) -> & ' a mut W {
self . variant ( MUXW ::_001 )
}
#[ doc = " Alternative 2 (chip-specific). " ]
#[ inline ]
pub fn _010 ( self ) -> & ' a mut W {
self . variant ( MUXW ::_010 )
}
#[ doc = " Alternative 3 (chip-specific). " ]
#[ inline ]
pub fn _011 ( self ) -> & ' a mut W {
self . variant ( MUXW ::_011 )
}
#[ doc = " Alternative 4 (chip-specific). " ]
#[ inline ]
pub fn _100 ( self ) -> & ' a mut W {
self . variant ( MUXW ::_100 )
}
#[ doc = " Alternative 5 (chip-specific). " ]
#[ inline ]
pub fn _101 ( self ) -> & ' a mut W {
self . variant ( MUXW ::_101 )
}
#[ doc = " Alternative 6 (chip-specific). " ]
#[ inline ]
pub fn _110 ( self ) -> & ' a mut W {
self . variant ( MUXW ::_110 )
}
#[ doc = " Alternative 7 (chip-specific). " ]
#[ inline ]
pub fn _111 ( self ) -> & ' a mut W {
self . variant ( MUXW ::_111 )
}
#[ doc = r " Writes raw bits to the field " ]
#[ inline ]
pub fn bits ( self , value : u8 ) -> & ' a mut W {
const MASK : u8 = 7 ;
const OFFSET : u8 = 8 ;
self . w . bits & = ! ( ( MASK as u32 ) < < OFFSET ) ;
self . w . bits | = ( ( value & MASK ) as u32 ) < < OFFSET ;
self . w
}
}
#[ doc = " Values that can be written to the field `LK` " ]
pub enum LKW {
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#[ doc = " Pin Control Register fields [15:0] are not locked. " ] _0 ,
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#[ doc = " Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset. " ]
_1 ,
}
impl LKW {
#[ allow(missing_docs) ]
#[ doc(hidden) ]
#[ inline ]
pub fn _bits ( & self ) -> bool {
match * self {
LKW ::_0 = > false ,
LKW ::_1 = > true ,
}
}
}
#[ doc = r " Proxy " ]
pub struct _LKW < ' a > {
w : & ' a mut W ,
}
impl < ' a > _LKW < ' a > {
#[ doc = r " Writes `variant` to the field " ]
#[ inline ]
pub fn variant ( self , variant : LKW ) -> & ' a mut W {
{
self . bit ( variant . _bits ( ) )
}
}
#[ doc = " Pin Control Register fields [15:0] are not locked. " ]
#[ inline ]
pub fn _0 ( self ) -> & ' a mut W {
self . variant ( LKW ::_0 )
}
#[ doc = " Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset. " ]
#[ inline ]
pub fn _1 ( self ) -> & ' a mut W {
self . variant ( LKW ::_1 )
}
#[ doc = r " Sets the field bit " ]
pub fn set_bit ( self ) -> & ' a mut W {
self . bit ( true )
}
#[ doc = r " Clears the field bit " ]
pub fn clear_bit ( self ) -> & ' a mut W {
self . bit ( false )
}
#[ doc = r " Writes raw bits to the field " ]
#[ inline ]
pub fn bit ( self , value : bool ) -> & ' a mut W {
const MASK : bool = true ;
const OFFSET : u8 = 15 ;
self . w . bits & = ! ( ( MASK as u32 ) < < OFFSET ) ;
self . w . bits | = ( ( value & MASK ) as u32 ) < < OFFSET ;
self . w
}
}
#[ doc = " Values that can be written to the field `IRQC` " ]
pub enum IRQCW {
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#[ doc = " Interrupt Status Flag (ISF) is disabled. " ] _0000 ,
#[ doc = " ISF flag and DMA request on rising edge. " ] _0001 ,
#[ doc = " ISF flag and DMA request on falling edge. " ] _0010 ,
#[ doc = " ISF flag and DMA request on either edge. " ] _0011 ,
#[ doc = " ISF flag and Interrupt when logic 0. " ] _1000 ,
#[ doc = " ISF flag and Interrupt on rising-edge. " ] _1001 ,
#[ doc = " ISF flag and Interrupt on falling-edge. " ] _1010 ,
#[ doc = " ISF flag and Interrupt on either edge. " ] _1011 ,
#[ doc = " ISF flag and Interrupt when logic 1. " ] _1100 ,
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}
impl IRQCW {
#[ allow(missing_docs) ]
#[ doc(hidden) ]
#[ inline ]
pub fn _bits ( & self ) -> u8 {
match * self {
IRQCW ::_0000 = > 0 ,
IRQCW ::_0001 = > 1 ,
IRQCW ::_0010 = > 2 ,
IRQCW ::_0011 = > 3 ,
IRQCW ::_1000 = > 8 ,
IRQCW ::_1001 = > 9 ,
IRQCW ::_1010 = > 10 ,
IRQCW ::_1011 = > 11 ,
IRQCW ::_1100 = > 12 ,
}
}
}
#[ doc = r " Proxy " ]
pub struct _IRQCW < ' a > {
w : & ' a mut W ,
}
impl < ' a > _IRQCW < ' a > {
#[ doc = r " Writes `variant` to the field " ]
#[ inline ]
pub fn variant ( self , variant : IRQCW ) -> & ' a mut W {
unsafe { self . bits ( variant . _bits ( ) ) }
}
#[ doc = " Interrupt Status Flag (ISF) is disabled. " ]
#[ inline ]
pub fn _0000 ( self ) -> & ' a mut W {
self . variant ( IRQCW ::_0000 )
}
#[ doc = " ISF flag and DMA request on rising edge. " ]
#[ inline ]
pub fn _0001 ( self ) -> & ' a mut W {
self . variant ( IRQCW ::_0001 )
}
#[ doc = " ISF flag and DMA request on falling edge. " ]
#[ inline ]
pub fn _0010 ( self ) -> & ' a mut W {
self . variant ( IRQCW ::_0010 )
}
#[ doc = " ISF flag and DMA request on either edge. " ]
#[ inline ]
pub fn _0011 ( self ) -> & ' a mut W {
self . variant ( IRQCW ::_0011 )
}
#[ doc = " ISF flag and Interrupt when logic 0. " ]
#[ inline ]
pub fn _1000 ( self ) -> & ' a mut W {
self . variant ( IRQCW ::_1000 )
}
#[ doc = " ISF flag and Interrupt on rising-edge. " ]
#[ inline ]
pub fn _1001 ( self ) -> & ' a mut W {
self . variant ( IRQCW ::_1001 )
}
#[ doc = " ISF flag and Interrupt on falling-edge. " ]
#[ inline ]
pub fn _1010 ( self ) -> & ' a mut W {
self . variant ( IRQCW ::_1010 )
}
#[ doc = " ISF flag and Interrupt on either edge. " ]
#[ inline ]
pub fn _1011 ( self ) -> & ' a mut W {
self . variant ( IRQCW ::_1011 )
}
#[ doc = " ISF flag and Interrupt when logic 1. " ]
#[ inline ]
pub fn _1100 ( self ) -> & ' a mut W {
self . variant ( IRQCW ::_1100 )
}
#[ doc = r " Writes raw bits to the field " ]
#[ inline ]
pub unsafe fn bits ( self , value : u8 ) -> & ' a mut W {
const MASK : u8 = 15 ;
const OFFSET : u8 = 16 ;
self . w . bits & = ! ( ( MASK as u32 ) < < OFFSET ) ;
self . w . bits | = ( ( value & MASK ) as u32 ) < < OFFSET ;
self . w
}
}
#[ doc = " Values that can be written to the field `ISF` " ]
pub enum ISFW {
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#[ doc = " Configured interrupt is not detected. " ] _0 ,
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#[ doc = " Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. " ]
_1 ,
}
impl ISFW {
#[ allow(missing_docs) ]
#[ doc(hidden) ]
#[ inline ]
pub fn _bits ( & self ) -> bool {
match * self {
ISFW ::_0 = > false ,
ISFW ::_1 = > true ,
}
}
}
#[ doc = r " Proxy " ]
pub struct _ISFW < ' a > {
w : & ' a mut W ,
}
impl < ' a > _ISFW < ' a > {
#[ doc = r " Writes `variant` to the field " ]
#[ inline ]
pub fn variant ( self , variant : ISFW ) -> & ' a mut W {
{
self . bit ( variant . _bits ( ) )
}
}
#[ doc = " Configured interrupt is not detected. " ]
#[ inline ]
pub fn _0 ( self ) -> & ' a mut W {
self . variant ( ISFW ::_0 )
}
#[ doc = " Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared. " ]
#[ inline ]
pub fn _1 ( self ) -> & ' a mut W {
self . variant ( ISFW ::_1 )
}
#[ doc = r " Sets the field bit " ]
pub fn set_bit ( self ) -> & ' a mut W {
self . bit ( true )
}
#[ doc = r " Clears the field bit " ]
pub fn clear_bit ( self ) -> & ' a mut W {
self . bit ( false )
}
#[ doc = r " Writes raw bits to the field " ]
#[ inline ]
pub fn bit ( self , value : bool ) -> & ' a mut W {
const MASK : bool = true ;
const OFFSET : u8 = 24 ;
self . w . bits & = ! ( ( MASK as u32 ) < < OFFSET ) ;
self . w . bits | = ( ( value & MASK ) as u32 ) < < OFFSET ;
self . w
}
}
impl R {
#[ doc = r " Value of the register as raw bits " ]
#[ inline ]
pub fn bits ( & self ) -> u32 {
self . bits
}
#[ doc = " Bit 0 - Pull Select " ]
#[ inline ]
pub fn ps ( & self ) -> PSR {
PSR ::_from ( {
const MASK : bool = true ;
const OFFSET : u8 = 0 ;
( ( self . bits > > OFFSET ) & MASK as u32 ) ! = 0
} )
}
#[ doc = " Bit 1 - Pull Enable " ]
#[ inline ]
pub fn pe ( & self ) -> PER {
PER ::_from ( {
const MASK : bool = true ;
const OFFSET : u8 = 1 ;
( ( self . bits > > OFFSET ) & MASK as u32 ) ! = 0
} )
}
#[ doc = " Bit 6 - Drive Strength Enable " ]
#[ inline ]
pub fn dse ( & self ) -> DSER {
DSER ::_from ( {
const MASK : bool = true ;
const OFFSET : u8 = 6 ;
( ( self . bits > > OFFSET ) & MASK as u32 ) ! = 0
} )
}
#[ doc = " Bits 8:10 - Pin Mux Control " ]
#[ inline ]
pub fn mux ( & self ) -> MUXR {
MUXR ::_from ( {
const MASK : u8 = 7 ;
const OFFSET : u8 = 8 ;
( ( self . bits > > OFFSET ) & MASK as u32 ) as u8
} )
}
#[ doc = " Bit 15 - Lock Register " ]
#[ inline ]
pub fn lk ( & self ) -> LKR {
LKR ::_from ( {
const MASK : bool = true ;
const OFFSET : u8 = 15 ;
( ( self . bits > > OFFSET ) & MASK as u32 ) ! = 0
} )
}
#[ doc = " Bits 16:19 - Interrupt Configuration " ]
#[ inline ]
pub fn irqc ( & self ) -> IRQCR {
IRQCR ::_from ( {
const MASK : u8 = 15 ;
const OFFSET : u8 = 16 ;
( ( self . bits > > OFFSET ) & MASK as u32 ) as u8
} )
}
#[ doc = " Bit 24 - Interrupt Status Flag " ]
#[ inline ]
pub fn isf ( & self ) -> ISFR {
ISFR ::_from ( {
const MASK : bool = true ;
const OFFSET : u8 = 24 ;
( ( self . bits > > OFFSET ) & MASK as u32 ) ! = 0
} )
}
}
impl W {
#[ doc = r " Reset value of the register " ]
#[ inline ]
pub fn reset_value ( ) -> W {
W { bits : 0 }
}
#[ doc = r " Writes raw bits to the register " ]
#[ inline ]
pub unsafe fn bits ( & mut self , bits : u32 ) -> & mut Self {
self . bits = bits ;
self
}
#[ doc = " Bit 0 - Pull Select " ]
#[ inline ]
pub fn ps ( & mut self ) -> _PSW {
_PSW { w : self }
}
#[ doc = " Bit 1 - Pull Enable " ]
#[ inline ]
pub fn pe ( & mut self ) -> _PEW {
_PEW { w : self }
}
#[ doc = " Bit 6 - Drive Strength Enable " ]
#[ inline ]
pub fn dse ( & mut self ) -> _DSEW {
_DSEW { w : self }
}
#[ doc = " Bits 8:10 - Pin Mux Control " ]
#[ inline ]
pub fn mux ( & mut self ) -> _MUXW {
_MUXW { w : self }
}
#[ doc = " Bit 15 - Lock Register " ]
#[ inline ]
pub fn lk ( & mut self ) -> _LKW {
_LKW { w : self }
}
#[ doc = " Bits 16:19 - Interrupt Configuration " ]
#[ inline ]
pub fn irqc ( & mut self ) -> _IRQCW {
_IRQCW { w : self }
}
#[ doc = " Bit 24 - Interrupt Status Flag " ]
#[ inline ]
pub fn isf ( & mut self ) -> _ISFW {
_ISFW { w : self }
}
}