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- # [ doc = "Register `R8_UART3_LCR` reader" ] pub struct R ( crate :: R < R8_UART3_LCR_SPEC > ) ; impl core :: ops :: Deref for R { type Target = crate :: R < R8_UART3_LCR_SPEC > ; # [ inline ( always ) ] fn deref ( & self ) -> & Self :: Target { & self . 0 } } impl From < crate :: R < R8_UART3_LCR_SPEC > > for R { # [ inline ( always ) ] fn from ( reader : crate :: R < R8_UART3_LCR_SPEC > ) -> Self { R ( reader ) } } # [ doc = "Register `R8_UART3_LCR` writer" ] pub struct W ( crate :: W < R8_UART3_LCR_SPEC > ) ; impl core :: ops :: Deref for W { type Target = crate :: W < R8_UART3_LCR_SPEC > ; # [ inline ( always ) ] fn deref ( & self ) -> & Self :: Target { & self . 0 } } impl core :: ops :: DerefMut for W { # [ inline ( always ) ] fn deref_mut ( & mut self ) -> & mut Self :: Target { & mut self . 0 } } impl From < crate :: W < R8_UART3_LCR_SPEC > > for W { # [ inline ( always ) ] fn from ( writer : crate :: W < R8_UART3_LCR_SPEC > ) -> Self { W ( writer ) } } # [ doc = "Field `RB_LCR_WORD_SZ` reader - UART word bit length" ] pub struct RB_LCR_WORD_SZ_R ( crate :: FieldReader < u8 , u8 > ) ; impl RB_LCR_WORD_SZ_R { pub ( crate ) fn new ( bits : u8 ) -> Self { RB_LCR_WORD_SZ_R ( crate :: FieldReader :: new ( bits ) ) } } impl core :: ops :: Deref for RB_LCR_WORD_SZ_R { type Target = crate :: FieldReader < u8 , u8 > ; # [ inline ( always ) ] fn deref ( & self ) -> & Self :: Target { & self . 0 } } # [ doc = "Field `RB_LCR_WORD_SZ` writer - UART word bit length" ] pub struct RB_LCR_WORD_SZ_W < 'a > { w : & 'a mut W , } impl < 'a > RB_LCR_WORD_SZ_W < 'a > { # [ doc = r"Writes raw bits to the field" ] # [ inline ( always ) ] pub unsafe fn bits ( self , value : u8 ) -> & 'a mut W { self . w . bits = ( self . w . bits & ! 0x03 ) | ( value as u8 & 0x03 ) ; self . w } } # [ doc = "Field `RB_LCR_STOP_BIT` reader - UART stop bit length" ] pub struct RB_LCR_STOP_BIT_R ( crate :: FieldReader < bool , bool > ) ; impl RB_LCR_STOP_BIT_R { pub ( crate ) fn new ( bits : bool ) -> Self { RB_LCR_STOP_BIT_R ( crate :: FieldReader :: new ( bits ) ) } } impl core :: ops :: Deref for RB_LCR_STOP_BIT_R { type Target = crate :: FieldReader < bool , bool > ; # [ inline ( always ) ] fn deref ( & self ) -> & Self :: Target { & self . 0 } } # [ doc = "Field `RB_LCR_STOP_BIT` writer - UART stop bit length" ] pub struct RB_LCR_STOP_BIT_W < 'a > { w : & 'a mut W , } impl < 'a > RB_LCR_STOP_BIT_W < 'a > { # [ doc = r"Sets the field bit" ] # [ inline ( always ) ] pub fn set_bit ( self ) -> & 'a mut W { self . bit ( true ) } # [ doc = r"Clears the field bit" ] # [ inline ( always ) ] pub fn clear_bit ( self ) -> & 'a mut W { self . bit ( false ) } # [ doc = r"Writes raw bits to the field" ] # [ inline ( always ) ] pub fn bit ( self , value : bool ) -> & 'a mut W { self . w . bits = ( self . w . bits & ! ( 0x01 << 2 ) ) | ( ( value as u8 & 0x01 ) << 2 ) ; self . w } } # [ doc = "Field `RB_LCR_PAR_EN` reader - UART parity enable" ] pub struct RB_LCR_PAR_EN_R ( crate :: FieldReader < bool , bool > ) ; impl RB_LCR_PAR_EN_R { pub ( crate ) fn new ( bits : bool ) -> Self { RB_LCR_PAR_EN_R ( crate :: FieldReader :: new ( bits ) ) } } impl core :: ops :: Deref for RB_LCR_PAR_EN_R { type Target = crate :: FieldReader < bool , bool > ; # [ inline ( always ) ] fn deref ( & self ) -> & Self :: Target { & self . 0 } } # [ doc = "Field `RB_LCR_PAR_EN` writer - UART parity enable" ] pub struct RB_LCR_PAR_EN_W < 'a > { w : & 'a mut W , } impl < 'a > RB_LCR_PAR_EN_W < 'a > { # [ doc = r"Sets the field bit" ] # [ inline ( always ) ] pub fn set_bit ( self ) -> & 'a mut W { self . bit ( true ) } # [ doc = r"Clears the field bit" ] # [ inline ( always ) ] pub fn clear_bit ( self ) -> & 'a mut W { self . bit ( false ) } # [ doc = r"Writes raw bits to the field" ] # [ inline ( always ) ] pub fn bit ( self , value : bool ) -> & 'a mut W { self . w . bits = ( self . w . bits & ! ( 0x01 << 3 ) ) | ( ( value as u8 & 0x01 ) << 3 ) ; self . w } } # [ doc = "Field `RB_LCR_PAR_MOD` reader - UART parity mode" ] pub struct RB_LCR_PAR_MOD_R ( crate :: FieldReader < u8 , u8 > ) ; impl RB_LCR_PAR_MOD_R { pub ( crate ) fn new ( bits : u8 ) -> Self { RB_LCR_PAR_MOD_R ( crate :: FieldReader :: new ( bits ) ) } } impl core :: ops :: Deref for RB_LCR_PAR_MOD_R { type Target = crate :: FieldReader < u8 , u8 > ; # [ inline ( always ) ] fn deref ( & self ) -> & Self :: Target { & self . 0 } } # [ doc = "Field `RB_LCR_PAR_MOD` writer - UART parity mode" ] pub struct RB_LCR_PAR_MOD_W < 'a > { w : & 'a mut W , } impl < 'a > RB_LCR_PAR_MOD_W < 'a > { # [ doc = r"Writes raw bits to the field" ] # [ inline ( always ) ] pub unsafe fn bits ( self , value : u8 ) -> & 'a mut W { self . w . bits = ( self . w . bits & ! ( 0x03 << 4 ) ) | ( ( value as u8 & 0x03 ) << 4 ) ; self . w } } # [ doc = "Field `RB_LCR_BREAK_EN` reader - UART break control enable" ] pub struct RB_LCR_BREAK_EN_R ( crate :: FieldReader < bool , bool > ) ; impl RB_LCR_BREAK_EN_R { pub ( crate ) fn new ( bits : bool ) -> Self { RB_LCR_BREAK_EN_R ( crate :: FieldReader :: new ( bits ) ) } } impl core :: ops :: Deref for RB_LCR_BREAK_EN_R { type Target = crate :: FieldReader < bool , bool > ; # [ inline ( always ) ] fn deref ( & self ) -> & Self :: Target { & self . 0 } } # [ doc = "Field `RB_LCR_BREAK_EN` writer - UART break control enable" ] pub struct RB_LCR_BREAK_EN_W < 'a > { w : & 'a mut W , } impl < 'a > RB_LCR_BREAK_EN_W < 'a > { # [ doc = r"Sets the field bit" ] # [ inline ( always ) ] pub fn set_bit ( self ) -> & 'a mut W { self . bit ( true ) } # [ doc = r"Clears the field bit" ] # [ inline ( always ) ] pub fn clear_bit ( self ) -> & 'a mut W { self . bit ( false ) } # [ doc = r"Writes raw bits to the field" ] # [ inline ( always ) ] pub fn bit ( self , value : bool ) -> & 'a mut W { self . w . bits = ( self . w . bits & ! ( 0x01 << 6 ) ) | ( ( value as u8 & 0x01 ) << 6 ) ; self . w } } # [ doc = "Field `RB_LCR_DLAB_RB_LCR_GP_BIT` reader - UART reserved bit and UART general purpose bit" ] pub struct RB_LCR_DLAB_RB_LCR_GP_BIT_R ( crate :: FieldReader < bool , bool > ) ; impl RB_LCR_DLAB_RB_LCR_GP_BIT_R { pub ( crate ) fn new ( bits : bool ) -> Self { RB_LCR_DLAB_RB_LCR_GP_BIT_R ( crate :: FieldReader :: new ( bits ) ) } } impl core :: ops :: Deref for RB_LCR_DLAB_RB_LCR_GP_BIT_R { type Target = crate :: FieldReader < bool , bool > ; # [ inline ( always ) ] fn deref ( & self ) -> & Self :: Target { & self . 0 } } # [ doc = "Field `RB_LCR_DLAB_RB_LCR_GP_BIT` writer - UART reserved bit and UART general purpose bit" ] pub struct RB_LCR_DLAB_RB_LCR_GP_BIT_W < 'a > { w : & 'a mut W , } impl < 'a > RB_LCR_DLAB_RB_LCR_GP_BIT_W < 'a > { # [ doc = r"Sets the field bit" ] # [ inline ( always ) ] pub fn set_bit ( self ) -> & 'a mut W { self . bit ( true ) } # [ doc = r"Clears the field bit" ] # [ inline ( always ) ] pub fn clear_bit ( self ) -> & 'a mut W { self . bit ( false ) } # [ doc = r"Writes raw bits to the field" ] # [ inline ( always ) ] pub fn bit ( self , value : bool ) -> & 'a mut W { self . w . bits = ( self . w . bits & ! ( 0x01 << 7 ) ) | ( ( value as u8 & 0x01 ) << 7 ) ; self . w } } impl R { # [ doc = "Bits 0:1 - UART word bit length" ] # [ inline ( always ) ] pub fn rb_lcr_word_sz ( & self ) -> RB_LCR_WORD_SZ_R { RB_LCR_WORD_SZ_R :: new ( ( self . bits & 0x03 ) as u8 ) } # [ doc = "Bit 2 - UART stop bit length" ] # [ inline ( always ) ] pub fn rb_lcr_stop_bit ( & self ) -> RB_LCR_STOP_BIT_R { RB_LCR_STOP_BIT_R :: new ( ( ( self . bits >> 2 ) & 0x01 ) != 0 ) } # [ doc = "Bit 3 - UART parity enable" ] # [ inline ( always ) ] pub fn rb_lcr_par_en ( & self ) -> RB_LCR_PAR_EN_R { RB_LCR_PAR_EN_R :: new ( ( ( self . bits >> 3 ) & 0x01 ) != 0 ) } # [ doc = "Bits 4:5 - UART parity mode" ] # [ inline ( always ) ] pub fn rb_lcr_par_mod ( & self ) -> RB_LCR_PAR_MOD_R { RB_LCR_PAR_MOD_R :: new ( ( ( self . bits >> 4 ) & 0x03 ) as u8 ) } # [ doc = "Bit 6 - UART break control enable" ] # [ inline ( always ) ] pub fn rb_lcr_break_en ( & self ) -> RB_LCR_BREAK_EN_R { RB_LCR_BREAK_EN_R :: new ( ( ( self . bits >> 6 ) & 0x01 ) != 0 ) } # [ doc = "Bit 7 - UART reserved bit and UART general purpose bit" ] # [ inline ( always ) ] pub fn rb_lcr_dlab_rb_lcr_gp_bit ( & self ) -> RB_LCR_DLAB_RB_LCR_GP_BIT_R { RB_LCR_DLAB_RB_LCR_GP_BIT_R :: new ( ( ( self . bits >> 7 ) & 0x01 ) != 0 ) } } impl W { # [ doc = "Bits 0:1 - UART word bit length" ] # [ inline ( always ) ] pub fn rb_lcr_word_sz ( & mut self ) -> RB_LCR_WORD_SZ_W { RB_LCR_WORD_SZ_W { w : self } } # [ doc = "Bit 2 - UART stop bit length" ] # [ inline ( always ) ] pub fn rb_lcr_stop_bit ( & mut self ) -> RB_LCR_STOP_BIT_W { RB_LCR_STOP_BIT_W { w : self } } # [ doc = "Bit 3 - UART parity enable" ] # [ inline ( always ) ] pub fn rb_lcr_par_en ( & mut self ) -> RB_LCR_PAR_EN_W { RB_LCR_PAR_EN_W { w : self } } # [ doc = "Bits 4:5 - UART parity mode" ] # [ inline ( always ) ] pub fn rb_lcr_par_mod ( & mut self ) -> RB_LCR_PAR_MOD_W { RB_LCR_PAR_MOD_W { w : self } } # [ doc = "Bit 6 - UART break control enable" ] # [ inline ( always ) ] pub fn rb_lcr_break_en ( & mut self ) -> RB_LCR_BREAK_EN_W { RB_LCR_BREAK_EN_W { w : self } } # [ doc = "Bit 7 - UART reserved bit and UART general purpose bit" ] # [ inline ( always ) ] pub fn rb_lcr_dlab_rb_lcr_gp_bit ( & mut self ) -> RB_LCR_DLAB_RB_LCR_GP_BIT_W { RB_LCR_DLAB_RB_LCR_GP_BIT_W { w : self } } # [ doc = "Writes raw bits to the register." ] # [ inline ( always ) ] pub unsafe fn bits ( & mut self , bits : u8 ) -> & mut Self { self . 0 . bits ( bits ) ; self } } # [ doc = "UART3 line control\n\nThis register you can [`read`](crate::generic::Reg::read), [`write_with_zero`](crate::generic::Reg::write_with_zero), [`reset`](crate::generic::Reg::reset), [`write`](crate::generic::Reg::write), [`modify`](crate::generic::Reg::modify). See [API](https://docs.rs/svd2rust/#read--modify--write-api).\n\nFor information about available fields see [r8_uart3_lcr](index.html) module" ] pub struct R8_UART3_LCR_SPEC ; impl crate :: RegisterSpec for R8_UART3_LCR_SPEC { type Ux = u8 ; } # [ doc = "`read()` method returns [r8_uart3_lcr::R](R) reader structure" ] impl crate :: Readable for R8_UART3_LCR_SPEC { type Reader = R ; } # [ doc = "`write(|w| ..)` method takes [r8_uart3_lcr::W](W) writer structure" ] impl crate :: Writable for R8_UART3_LCR_SPEC { type Writer = W ; } # [ doc = "`reset()` method sets R8_UART3_LCR to value 0" ] impl crate :: Resettable for R8_UART3_LCR_SPEC { # [ inline ( always ) ] fn reset_value ( ) -> Self :: Ux { 0 } }
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