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#[doc = "Register `CCER` reader"]
pub struct R(crate::R<CCER_SPEC>);
impl core::ops::Deref for R {
type Target = crate::R<CCER_SPEC>;
#[inline(always)]
fn deref(&self) -> &Self::Target {
&self.0
}
}
impl From<crate::R<CCER_SPEC>> for R {
#[inline(always)]
fn from(reader: crate::R<CCER_SPEC>) -> Self {
R(reader)
}
}
#[doc = "Register `CCER` writer"]
pub struct W(crate::W<CCER_SPEC>);
impl core::ops::Deref for W {
type Target = crate::W<CCER_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<CCER_SPEC>> for W {
#[inline(always)]
fn from(writer: crate::W<CCER_SPEC>) -> Self {
W(writer)
}
}
#[doc = "Capture/Compare 1 output enable.\n\nValue on reset: 0"]
#[derive(Clone, Copy, Debug, PartialEq)]
pub enum CC1E_A {
#[doc = "0: Capture mode disabled / OC1 is not active"]
B_0X0 = 0,
#[doc = "1: Capture mode enabled / OC1 signal is output on the corresponding output pin"]
B_0X1 = 1,
}
impl From<CC1E_A> for bool {
#[inline(always)]
fn from(variant: CC1E_A) -> Self {
variant as u8 != 0
}
}
#[doc = "Field `CC1E` reader - Capture/Compare 1 output enable."]
pub struct CC1E_R(crate::FieldReader<bool, CC1E_A>);
impl CC1E_R {
pub(crate) fn new(bits: bool) -> Self {
CC1E_R(crate::FieldReader::new(bits))
}
#[doc = r"Get enumerated values variant"]
#[inline(always)]
pub fn variant(&self) -> CC1E_A {
match self.bits {
false => CC1E_A::B_0X0,
true => CC1E_A::B_0X1,
}
}
#[doc = "Checks if the value of the field is `B_0X0`"]
#[inline(always)]
pub fn is_b_0x0(&self) -> bool {
**self == CC1E_A::B_0X0
}
#[doc = "Checks if the value of the field is `B_0X1`"]
#[inline(always)]
pub fn is_b_0x1(&self) -> bool {
**self == CC1E_A::B_0X1
}
}
impl core::ops::Deref for CC1E_R {
type Target = crate::FieldReader<bool, CC1E_A>;
#[inline(always)]
fn deref(&self) -> &Self::Target {
&self.0
}
}
#[doc = "Field `CC1E` writer - Capture/Compare 1 output enable."]
pub struct CC1E_W<'a> {
w: &'a mut W,
}
impl<'a> CC1E_W<'a> {
#[doc = r"Writes `variant` to the field"]
#[inline(always)]
pub fn variant(self, variant: CC1E_A) -> &'a mut W {
self.bit(variant.into())
}
#[doc = "Capture mode disabled / OC1 is not active"]
#[inline(always)]
pub fn b_0x0(self) -> &'a mut W {
self.variant(CC1E_A::B_0X0)
}
#[doc = "Capture mode enabled / OC1 signal is output on the corresponding output pin"]
#[inline(always)]
pub fn b_0x1(self) -> &'a mut W {
self.variant(CC1E_A::B_0X1)
}
#[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 = "Capture/Compare 1 output Polarity. When CC1 channel is configured as input, both CC1NP/CC1P bits select the active polarity of TI1FP1 and TI2FP1 for trigger or capture operations. CC1NP=0, CC1P=0: non-inverted/rising edge. The circuit is sensitive to TIxFP1 rising edge (capture or trigger operations in reset, external clock or trigger mode), TIxFP1 is not inverted (trigger operation in gated mode or encoder mode). CC1NP=0, CC1P=1: inverted/falling edge. The circuit is sensitive to TIxFP1 falling edge (capture or trigger operations in reset, external clock or trigger mode), TIxFP1 is inverted (trigger operation in gated mode or encoder mode). CC1NP=1, CC1P=1: non-inverted/both edges/ The circuit is sensitive to both TIxFP1 rising and falling edges (capture or trigger operations in reset, external clock or trigger mode), TIxFP1is not inverted (trigger operation in gated mode). This configuration must not be used in encoder mode. CC1NP=1, CC1P=0: This configuration is reserved, it must not be used.\n\nValue on reset: 0"]
#[derive(Clone, Copy, Debug, PartialEq)]
pub enum CC1P_A {
#[doc = "0: OC1 active high (output mode) / Edge sensitivity selection (input mode, see below)"]
B_0X0 = 0,
#[doc = "1: OC1 active low (output mode) / Edge sensitivity selection (input mode, see below)"]
B_0X1 = 1,
}
impl From<CC1P_A> for bool {
#[inline(always)]
fn from(variant: CC1P_A) -> Self {
variant as u8 != 0
}
}
#[doc = "Field `CC1P` reader - Capture/Compare 1 output Polarity. When CC1 channel is configured as input, both CC1NP/CC1P bits select the active polarity of TI1FP1 and TI2FP1 for trigger or capture operations. CC1NP=0, CC1P=0: non-inverted/rising edge. The circuit is sensitive to TIxFP1 rising edge (capture or trigger operations in reset, external clock or trigger mode), TIxFP1 is not inverted (trigger operation in gated mode or encoder mode). CC1NP=0, CC1P=1: inverted/falling edge. The circuit is sensitive to TIxFP1 falling edge (capture or trigger operations in reset, external clock or trigger mode), TIxFP1 is inverted (trigger operation in gated mode or encoder mode). CC1NP=1, CC1P=1: non-inverted/both edges/ The circuit is sensitive to both TIxFP1 rising and falling edges (capture or trigger operations in reset, external clock or trigger mode), TIxFP1is not inverted (trigger operation in gated mode). This configuration must not be used in encoder mode. CC1NP=1, CC1P=0: This configuration is reserved, it must not be used."]
pub struct CC1P_R(crate::FieldReader<bool, CC1P_A>);
impl CC1P_R {
pub(crate) fn new(bits: bool) -> Self {
CC1P_R(crate::FieldReader::new(bits))
}
#[doc = r"Get enumerated values variant"]
#[inline(always)]
pub fn variant(&self) -> CC1P_A {
match self.bits {
false => CC1P_A::B_0X0,
true => CC1P_A::B_0X1,
}
}
#[doc = "Checks if the value of the field is `B_0X0`"]
#[inline(always)]
pub fn is_b_0x0(&self) -> bool {
**self == CC1P_A::B_0X0
}
#[doc = "Checks if the value of the field is `B_0X1`"]
#[inline(always)]
pub fn is_b_0x1(&self) -> bool {
**self == CC1P_A::B_0X1
}
}
impl core::ops::Deref for CC1P_R {
type Target = crate::FieldReader<bool, CC1P_A>;
#[inline(always)]
fn deref(&self) -> &Self::Target {
&self.0
}
}
#[doc = "Field `CC1P` writer - Capture/Compare 1 output Polarity. When CC1 channel is configured as input, both CC1NP/CC1P bits select the active polarity of TI1FP1 and TI2FP1 for trigger or capture operations. CC1NP=0, CC1P=0: non-inverted/rising edge. The circuit is sensitive to TIxFP1 rising edge (capture or trigger operations in reset, external clock or trigger mode), TIxFP1 is not inverted (trigger operation in gated mode or encoder mode). CC1NP=0, CC1P=1: inverted/falling edge. The circuit is sensitive to TIxFP1 falling edge (capture or trigger operations in reset, external clock or trigger mode), TIxFP1 is inverted (trigger operation in gated mode or encoder mode). CC1NP=1, CC1P=1: non-inverted/both edges/ The circuit is sensitive to both TIxFP1 rising and falling edges (capture or trigger operations in reset, external clock or trigger mode), TIxFP1is not inverted (trigger operation in gated mode). This configuration must not be used in encoder mode. CC1NP=1, CC1P=0: This configuration is reserved, it must not be used."]
pub struct CC1P_W<'a> {
w: &'a mut W,
}
impl<'a> CC1P_W<'a> {
#[doc = r"Writes `variant` to the field"]
#[inline(always)]
pub fn variant(self, variant: CC1P_A) -> &'a mut W {
self.bit(variant.into())
}
#[doc = "OC1 active high (output mode) / Edge sensitivity selection (input mode, see below)"]
#[inline(always)]
pub fn b_0x0(self) -> &'a mut W {
self.variant(CC1P_A::B_0X0)
}
#[doc = "OC1 active low (output mode) / Edge sensitivity selection (input mode, see below)"]
#[inline(always)]
pub fn b_0x1(self) -> &'a mut W {
self.variant(CC1P_A::B_0X1)
}
#[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 = "Field `CC1NP` reader - Capture/Compare 1 complementary output Polarity. CC1 channel configured as output: CC1NP must be kept cleared. CC1 channel configured as input: CC1NP bit is used in conjunction with CC1P to define TI1FP1 polarity (refer to CC1P description)."]
pub struct CC1NP_R(crate::FieldReader<bool, bool>);
impl CC1NP_R {
pub(crate) fn new(bits: bool) -> Self {
CC1NP_R(crate::FieldReader::new(bits))
}
}
impl core::ops::Deref for CC1NP_R {
type Target = crate::FieldReader<bool, bool>;
#[inline(always)]
fn deref(&self) -> &Self::Target {
&self.0
}
}
#[doc = "Field `CC1NP` writer - Capture/Compare 1 complementary output Polarity. CC1 channel configured as output: CC1NP must be kept cleared. CC1 channel configured as input: CC1NP bit is used in conjunction with CC1P to define TI1FP1 polarity (refer to CC1P description)."]
pub struct CC1NP_W<'a> {
w: &'a mut W,
}
impl<'a> CC1NP_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
}
}
impl R {
#[doc = "Bit 0 - Capture/Compare 1 output enable."]
#[inline(always)]
pub fn cc1e(&self) -> CC1E_R {
CC1E_R::new((self.bits & 0x01) != 0)
}
#[doc = "Bit 1 - Capture/Compare 1 output Polarity. When CC1 channel is configured as input, both CC1NP/CC1P bits select the active polarity of TI1FP1 and TI2FP1 for trigger or capture operations. CC1NP=0, CC1P=0: non-inverted/rising edge. The circuit is sensitive to TIxFP1 rising edge (capture or trigger operations in reset, external clock or trigger mode), TIxFP1 is not inverted (trigger operation in gated mode or encoder mode). CC1NP=0, CC1P=1: inverted/falling edge. The circuit is sensitive to TIxFP1 falling edge (capture or trigger operations in reset, external clock or trigger mode), TIxFP1 is inverted (trigger operation in gated mode or encoder mode). CC1NP=1, CC1P=1: non-inverted/both edges/ The circuit is sensitive to both TIxFP1 rising and falling edges (capture or trigger operations in reset, external clock or trigger mode), TIxFP1is not inverted (trigger operation in gated mode). This configuration must not be used in encoder mode. CC1NP=1, CC1P=0: This configuration is reserved, it must not be used."]
#[inline(always)]
pub fn cc1p(&self) -> CC1P_R {
CC1P_R::new(((self.bits >> 1) & 0x01) != 0)
}
#[doc = "Bit 3 - Capture/Compare 1 complementary output Polarity. CC1 channel configured as output: CC1NP must be kept cleared. CC1 channel configured as input: CC1NP bit is used in conjunction with CC1P to define TI1FP1 polarity (refer to CC1P description)."]
#[inline(always)]
pub fn cc1np(&self) -> CC1NP_R {
CC1NP_R::new(((self.bits >> 3) & 0x01) != 0)
}
}
impl W {
#[doc = "Bit 0 - Capture/Compare 1 output enable."]
#[inline(always)]
pub fn cc1e(&mut self) -> CC1E_W {
CC1E_W { w: self }
}
#[doc = "Bit 1 - Capture/Compare 1 output Polarity. When CC1 channel is configured as input, both CC1NP/CC1P bits select the active polarity of TI1FP1 and TI2FP1 for trigger or capture operations. CC1NP=0, CC1P=0: non-inverted/rising edge. The circuit is sensitive to TIxFP1 rising edge (capture or trigger operations in reset, external clock or trigger mode), TIxFP1 is not inverted (trigger operation in gated mode or encoder mode). CC1NP=0, CC1P=1: inverted/falling edge. The circuit is sensitive to TIxFP1 falling edge (capture or trigger operations in reset, external clock or trigger mode), TIxFP1 is inverted (trigger operation in gated mode or encoder mode). CC1NP=1, CC1P=1: non-inverted/both edges/ The circuit is sensitive to both TIxFP1 rising and falling edges (capture or trigger operations in reset, external clock or trigger mode), TIxFP1is not inverted (trigger operation in gated mode). This configuration must not be used in encoder mode. CC1NP=1, CC1P=0: This configuration is reserved, it must not be used."]
#[inline(always)]
pub fn cc1p(&mut self) -> CC1P_W {
CC1P_W { w: self }
}
#[doc = "Bit 3 - Capture/Compare 1 complementary output Polarity. CC1 channel configured as output: CC1NP must be kept cleared. CC1 channel configured as input: CC1NP bit is used in conjunction with CC1P to define TI1FP1 polarity (refer to CC1P description)."]
#[inline(always)]
pub fn cc1np(&mut self) -> CC1NP_W {
CC1NP_W { w: self }
}
#[doc = "Writes raw bits to the register."]
#[inline(always)]
pub unsafe fn bits(&mut self, bits: u32) -> &mut Self {
self.0.bits(bits);
self
}
}
#[doc = "capture/compare enable register\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 [ccer](index.html) module"]
pub struct CCER_SPEC;
impl crate::RegisterSpec for CCER_SPEC {
type Ux = u32;
}
#[doc = "`read()` method returns [ccer::R](R) reader structure"]
impl crate::Readable for CCER_SPEC {
type Reader = R;
}
#[doc = "`write(|w| ..)` method takes [ccer::W](W) writer structure"]
impl crate::Writable for CCER_SPEC {
type Writer = W;
}
#[doc = "`reset()` method sets CCER to value 0"]
impl crate::Resettable for CCER_SPEC {
#[inline(always)]
fn reset_value() -> Self::Ux {
0
}
}