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#[doc = "Reader of register ISR"] pub type R = crate::R<u32, super::ISR>; #[doc = "Writer for register ISR"] pub type W = crate::W<u32, super::ISR>; #[doc = "Register ISR `reset()`'s with value 0"] impl crate::ResetValue for super::ISR { type Type = u32; #[inline(always)] fn reset_value() -> Self::Type { 0 } } #[doc = "Reader of field `RXBR`"] pub type RXBR_R = crate::R<bool, bool>; #[doc = "Write proxy for field `RXBR`"] pub struct RXBR_W<'a> { w: &'a mut W, } impl<'a> RXBR_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) | ((value as u32) & 0x01); self.w } } #[doc = "Reader of field `RXEND`"] pub type RXEND_R = crate::R<bool, bool>; #[doc = "Write proxy for field `RXEND`"] pub struct RXEND_W<'a> { w: &'a mut W, } impl<'a> RXEND_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 << 1)) | (((value as u32) & 0x01) << 1); self.w } } #[doc = "Reader of field `RXOVR`"] pub type RXOVR_R = crate::R<bool, bool>; #[doc = "Write proxy for field `RXOVR`"] pub struct RXOVR_W<'a> { w: &'a mut W, } impl<'a> RXOVR_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 u32) & 0x01) << 2); self.w } } #[doc = "Reader of field `BRE`"] pub type BRE_R = crate::R<bool, bool>; #[doc = "Write proxy for field `BRE`"] pub struct BRE_W<'a> { w: &'a mut W, } impl<'a> BRE_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 u32) & 0x01) << 3); self.w } } #[doc = "Reader of field `SBPE`"] pub type SBPE_R = crate::R<bool, bool>; #[doc = "Write proxy for field `SBPE`"] pub struct SBPE_W<'a> { w: &'a mut W, } impl<'a> SBPE_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 << 4)) | (((value as u32) & 0x01) << 4); self.w } } #[doc = "Reader of field `LBPE`"] pub type LBPE_R = crate::R<bool, bool>; #[doc = "Write proxy for field `LBPE`"] pub struct LBPE_W<'a> { w: &'a mut W, } impl<'a> LBPE_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 << 5)) | (((value as u32) & 0x01) << 5); self.w } } #[doc = "Reader of field `RXACKE`"] pub type RXACKE_R = crate::R<bool, bool>; #[doc = "Write proxy for field `RXACKE`"] pub struct RXACKE_W<'a> { w: &'a mut W, } impl<'a> RXACKE_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 u32) & 0x01) << 6); self.w } } #[doc = "Reader of field `ARBLST`"] pub type ARBLST_R = crate::R<bool, bool>; #[doc = "Write proxy for field `ARBLST`"] pub struct ARBLST_W<'a> { w: &'a mut W, } impl<'a> ARBLST_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 u32) & 0x01) << 7); self.w } } #[doc = "Reader of field `TXBR`"] pub type TXBR_R = crate::R<bool, bool>; #[doc = "Write proxy for field `TXBR`"] pub struct TXBR_W<'a> { w: &'a mut W, } impl<'a> TXBR_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 << 8)) | (((value as u32) & 0x01) << 8); self.w } } #[doc = "Reader of field `TXEND`"] pub type TXEND_R = crate::R<bool, bool>; #[doc = "Write proxy for field `TXEND`"] pub struct TXEND_W<'a> { w: &'a mut W, } impl<'a> TXEND_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 << 9)) | (((value as u32) & 0x01) << 9); self.w } } #[doc = "Reader of field `TXUDR`"] pub type TXUDR_R = crate::R<bool, bool>; #[doc = "Write proxy for field `TXUDR`"] pub struct TXUDR_W<'a> { w: &'a mut W, } impl<'a> TXUDR_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 << 10)) | (((value as u32) & 0x01) << 10); self.w } } #[doc = "Reader of field `TXERR`"] pub type TXERR_R = crate::R<bool, bool>; #[doc = "Write proxy for field `TXERR`"] pub struct TXERR_W<'a> { w: &'a mut W, } impl<'a> TXERR_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 << 11)) | (((value as u32) & 0x01) << 11); self.w } } #[doc = "Reader of field `TXACKE`"] pub type TXACKE_R = crate::R<bool, bool>; #[doc = "Write proxy for field `TXACKE`"] pub struct TXACKE_W<'a> { w: &'a mut W, } impl<'a> TXACKE_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 << 12)) | (((value as u32) & 0x01) << 12); self.w } } impl R { #[doc = "Bit 0 - Rx-Byte Received The RXBR bit is set by hardware to inform application that a new byte has been received from the CEC line and stored into the RXD buffer. RXBR is cleared by software write at 1."] #[inline(always)] pub fn rxbr(&self) -> RXBR_R { RXBR_R::new((self.bits & 0x01) != 0) } #[doc = "Bit 1 - End Of Reception RXEND is set by hardware to inform application that the last byte of a CEC message is received from the CEC line and stored into the RXD buffer. RXEND is set at the same time of RXBR. RXEND is cleared by software write at 1."] #[inline(always)] pub fn rxend(&self) -> RXEND_R { RXEND_R::new(((self.bits >> 1) & 0x01) != 0) } #[doc = "Bit 2 - Rx-Overrun RXOVR is set by hardware if RXBR is not yet cleared at the time a new byte is received on the CEC line and stored into RXD. RXOVR assertion stops message reception so that no acknowledge is sent. In case of broadcast, a negative acknowledge is sent. RXOVR is cleared by software write at 1."] #[inline(always)] pub fn rxovr(&self) -> RXOVR_R { RXOVR_R::new(((self.bits >> 2) & 0x01) != 0) } #[doc = "Bit 3 - Rx-Bit Rising Error BRE is set by hardware in case a Data-Bit waveform is detected with Bit Rising Error. BRE is set either at the time the misplaced rising edge occurs, or at the end of the maximum BRE tolerance allowed by RXTOL, in case rising edge is still longing. BRE stops message reception if BRESTP=1. BRE generates an Error-Bit on the CEC line if BREGEN=1. BRE is cleared by software write at 1."] #[inline(always)] pub fn bre(&self) -> BRE_R { BRE_R::new(((self.bits >> 3) & 0x01) != 0) } #[doc = "Bit 4 - Rx-Short Bit Period Error SBPE is set by hardware in case a Data-Bit waveform is detected with Short Bit Period Error. SBPE is set at the time the anticipated falling edge occurs. SBPE generates an Error-Bit on the CEC line. SBPE is cleared by software write at 1."] #[inline(always)] pub fn sbpe(&self) -> SBPE_R { SBPE_R::new(((self.bits >> 4) & 0x01) != 0) } #[doc = "Bit 5 - Rx-Long Bit Period Error LBPE is set by hardware in case a Data-Bit waveform is detected with Long Bit Period Error. LBPE is set at the end of the maximum bit-extension tolerance allowed by RXTOL, in case falling edge is still longing. LBPE always stops reception of the CEC message. LBPE generates an Error-Bit on the CEC line if LBPEGEN=1. In case of broadcast, Error-Bit is generated even in case of LBPEGEN=0. LBPE is cleared by software write at 1."] #[inline(always)] pub fn lbpe(&self) -> LBPE_R { LBPE_R::new(((self.bits >> 5) & 0x01) != 0) } #[doc = "Bit 6 - Rx-Missing Acknowledge In receive mode, RXACKE is set by hardware to inform application that no acknowledge was seen on the CEC line. RXACKE applies only for broadcast messages and in listen mode also for not directly addressed messages (destination address not enabled in OAR). RXACKE aborts message reception. RXACKE is cleared by software write at 1."] #[inline(always)] pub fn rxacke(&self) -> RXACKE_R { RXACKE_R::new(((self.bits >> 6) & 0x01) != 0) } #[doc = "Bit 7 - Arbitration Lost ARBLST is set by hardware to inform application that CEC device is switching to reception due to arbitration lost event following the TXSOM command. ARBLST can be due either to a contending CEC device starting earlier or starting at the same time but with higher HEADER priority. After ARBLST assertion TXSOM bit keeps pending for next transmission attempt. ARBLST is cleared by software write at 1."] #[inline(always)] pub fn arblst(&self) -> ARBLST_R { ARBLST_R::new(((self.bits >> 7) & 0x01) != 0) } #[doc = "Bit 8 - Tx-Byte Request TXBR is set by hardware to inform application that the next transmission data has to be written to TXDR. TXBR is set when the 4th bit of currently transmitted byte is sent. Application must write the next byte to TXDR within 6 nominal data-bit periods before transmission underrun error occurs (TXUDR). TXBR is cleared by software write at 1."] #[inline(always)] pub fn txbr(&self) -> TXBR_R { TXBR_R::new(((self.bits >> 8) & 0x01) != 0) } #[doc = "Bit 9 - End of Transmission TXEND is set by hardware to inform application that the last byte of the CEC message has been successfully transmitted. TXEND clears the TXSOM and TXEOM control bits. TXEND is cleared by software write at 1."] #[inline(always)] pub fn txend(&self) -> TXEND_R { TXEND_R::new(((self.bits >> 9) & 0x01) != 0) } #[doc = "Bit 10 - Tx-Buffer Underrun In transmission mode, TXUDR is set by hardware if application was not in time to load TXDR before of next byte transmission. TXUDR aborts message transmission and clears TXSOM and TXEOM control bits. TXUDR is cleared by software write at 1"] #[inline(always)] pub fn txudr(&self) -> TXUDR_R { TXUDR_R::new(((self.bits >> 10) & 0x01) != 0) } #[doc = "Bit 11 - Tx-Error In transmission mode, TXERR is set by hardware if the CEC initiator detects low impedance on the CEC line while it is released. TXERR aborts message transmission and clears TXSOM and TXEOM controls. TXERR is cleared by software write at 1."] #[inline(always)] pub fn txerr(&self) -> TXERR_R { TXERR_R::new(((self.bits >> 11) & 0x01) != 0) } #[doc = "Bit 12 - Tx-Missing Acknowledge Error In transmission mode, TXACKE is set by hardware to inform application that no acknowledge was received. In case of broadcast transmission, TXACKE informs application that a negative acknowledge was received. TXACKE aborts message transmission and clears TXSOM and TXEOM controls. TXACKE is cleared by software write at 1."] #[inline(always)] pub fn txacke(&self) -> TXACKE_R { TXACKE_R::new(((self.bits >> 12) & 0x01) != 0) } } impl W { #[doc = "Bit 0 - Rx-Byte Received The RXBR bit is set by hardware to inform application that a new byte has been received from the CEC line and stored into the RXD buffer. RXBR is cleared by software write at 1."] #[inline(always)] pub fn rxbr(&mut self) -> RXBR_W { RXBR_W { w: self } } #[doc = "Bit 1 - End Of Reception RXEND is set by hardware to inform application that the last byte of a CEC message is received from the CEC line and stored into the RXD buffer. RXEND is set at the same time of RXBR. RXEND is cleared by software write at 1."] #[inline(always)] pub fn rxend(&mut self) -> RXEND_W { RXEND_W { w: self } } #[doc = "Bit 2 - Rx-Overrun RXOVR is set by hardware if RXBR is not yet cleared at the time a new byte is received on the CEC line and stored into RXD. RXOVR assertion stops message reception so that no acknowledge is sent. In case of broadcast, a negative acknowledge is sent. RXOVR is cleared by software write at 1."] #[inline(always)] pub fn rxovr(&mut self) -> RXOVR_W { RXOVR_W { w: self } } #[doc = "Bit 3 - Rx-Bit Rising Error BRE is set by hardware in case a Data-Bit waveform is detected with Bit Rising Error. BRE is set either at the time the misplaced rising edge occurs, or at the end of the maximum BRE tolerance allowed by RXTOL, in case rising edge is still longing. BRE stops message reception if BRESTP=1. BRE generates an Error-Bit on the CEC line if BREGEN=1. BRE is cleared by software write at 1."] #[inline(always)] pub fn bre(&mut self) -> BRE_W { BRE_W { w: self } } #[doc = "Bit 4 - Rx-Short Bit Period Error SBPE is set by hardware in case a Data-Bit waveform is detected with Short Bit Period Error. SBPE is set at the time the anticipated falling edge occurs. SBPE generates an Error-Bit on the CEC line. SBPE is cleared by software write at 1."] #[inline(always)] pub fn sbpe(&mut self) -> SBPE_W { SBPE_W { w: self } } #[doc = "Bit 5 - Rx-Long Bit Period Error LBPE is set by hardware in case a Data-Bit waveform is detected with Long Bit Period Error. LBPE is set at the end of the maximum bit-extension tolerance allowed by RXTOL, in case falling edge is still longing. LBPE always stops reception of the CEC message. LBPE generates an Error-Bit on the CEC line if LBPEGEN=1. In case of broadcast, Error-Bit is generated even in case of LBPEGEN=0. LBPE is cleared by software write at 1."] #[inline(always)] pub fn lbpe(&mut self) -> LBPE_W { LBPE_W { w: self } } #[doc = "Bit 6 - Rx-Missing Acknowledge In receive mode, RXACKE is set by hardware to inform application that no acknowledge was seen on the CEC line. RXACKE applies only for broadcast messages and in listen mode also for not directly addressed messages (destination address not enabled in OAR). RXACKE aborts message reception. RXACKE is cleared by software write at 1."] #[inline(always)] pub fn rxacke(&mut self) -> RXACKE_W { RXACKE_W { w: self } } #[doc = "Bit 7 - Arbitration Lost ARBLST is set by hardware to inform application that CEC device is switching to reception due to arbitration lost event following the TXSOM command. ARBLST can be due either to a contending CEC device starting earlier or starting at the same time but with higher HEADER priority. After ARBLST assertion TXSOM bit keeps pending for next transmission attempt. ARBLST is cleared by software write at 1."] #[inline(always)] pub fn arblst(&mut self) -> ARBLST_W { ARBLST_W { w: self } } #[doc = "Bit 8 - Tx-Byte Request TXBR is set by hardware to inform application that the next transmission data has to be written to TXDR. TXBR is set when the 4th bit of currently transmitted byte is sent. Application must write the next byte to TXDR within 6 nominal data-bit periods before transmission underrun error occurs (TXUDR). TXBR is cleared by software write at 1."] #[inline(always)] pub fn txbr(&mut self) -> TXBR_W { TXBR_W { w: self } } #[doc = "Bit 9 - End of Transmission TXEND is set by hardware to inform application that the last byte of the CEC message has been successfully transmitted. TXEND clears the TXSOM and TXEOM control bits. TXEND is cleared by software write at 1."] #[inline(always)] pub fn txend(&mut self) -> TXEND_W { TXEND_W { w: self } } #[doc = "Bit 10 - Tx-Buffer Underrun In transmission mode, TXUDR is set by hardware if application was not in time to load TXDR before of next byte transmission. TXUDR aborts message transmission and clears TXSOM and TXEOM control bits. TXUDR is cleared by software write at 1"] #[inline(always)] pub fn txudr(&mut self) -> TXUDR_W { TXUDR_W { w: self } } #[doc = "Bit 11 - Tx-Error In transmission mode, TXERR is set by hardware if the CEC initiator detects low impedance on the CEC line while it is released. TXERR aborts message transmission and clears TXSOM and TXEOM controls. TXERR is cleared by software write at 1."] #[inline(always)] pub fn txerr(&mut self) -> TXERR_W { TXERR_W { w: self } } #[doc = "Bit 12 - Tx-Missing Acknowledge Error In transmission mode, TXACKE is set by hardware to inform application that no acknowledge was received. In case of broadcast transmission, TXACKE informs application that a negative acknowledge was received. TXACKE aborts message transmission and clears TXSOM and TXEOM controls. TXACKE is cleared by software write at 1."] #[inline(always)] pub fn txacke(&mut self) -> TXACKE_W { TXACKE_W { w: self } } }