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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::CALR { #[doc = r"Modifies the contents of the register"] #[inline(always)] pub fn modify<F>(&self, f: F) where for<'w> F: FnOnce(&R, &'w mut W) -> &'w mut W, { let bits = self.register.get(); self.register.set(f(&R { bits }, &mut W { bits }).bits); } #[doc = r"Reads the contents of the register"] #[inline(always)] pub fn read(&self) -> R { R { bits: self.register.get(), } } #[doc = r"Writes to the register"] #[inline(always)] pub fn write<F>(&self, f: F) where F: FnOnce(&mut W) -> &mut W, { self.register.set( f(&mut W { bits: Self::reset_value(), }) .bits, ); } #[doc = r"Reset value of the register"] #[inline(always)] pub const fn reset_value() -> u32 { 0 } #[doc = r"Writes the reset value to the register"] #[inline(always)] pub fn reset(&self) { self.register.set(Self::reset_value()) } } #[doc = r"Value of the field"] pub struct CALMR { bits: u16, } impl CALMR { #[doc = r"Value of the field as raw bits"] #[inline(always)] pub fn bits(&self) -> u16 { self.bits } } #[doc = r"Proxy"] pub struct _CALMW<'a> { w: &'a mut W, } impl<'a> _CALMW<'a> { #[doc = r"Writes raw bits to the field"] #[inline(always)] pub unsafe fn bits(self, value: u16) -> &'a mut W { self.w.bits &= !(0x01ff << 0); self.w.bits |= ((value as u32) & 0x01ff) << 0; self.w } } #[doc = r"Value of the field"] pub struct CALW16R { bits: bool, } impl CALW16R { #[doc = r"Value of the field as raw bits"] #[inline(always)] pub fn bit(&self) -> bool { self.bits } #[doc = r"Returns `true` if the bit is clear (0)"] #[inline(always)] pub fn bit_is_clear(&self) -> bool { !self.bit() } #[doc = r"Returns `true` if the bit is set (1)"] #[inline(always)] pub fn bit_is_set(&self) -> bool { self.bit() } } #[doc = r"Proxy"] pub struct _CALW16W<'a> { w: &'a mut W, } impl<'a> _CALW16W<'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 &= !(0x01 << 13); self.w.bits |= ((value as u32) & 0x01) << 13; self.w } } #[doc = r"Value of the field"] pub struct CALW8R { bits: bool, } impl CALW8R { #[doc = r"Value of the field as raw bits"] #[inline(always)] pub fn bit(&self) -> bool { self.bits } #[doc = r"Returns `true` if the bit is clear (0)"] #[inline(always)] pub fn bit_is_clear(&self) -> bool { !self.bit() } #[doc = r"Returns `true` if the bit is set (1)"] #[inline(always)] pub fn bit_is_set(&self) -> bool { self.bit() } } #[doc = r"Proxy"] pub struct _CALW8W<'a> { w: &'a mut W, } impl<'a> _CALW8W<'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 &= !(0x01 << 14); self.w.bits |= ((value as u32) & 0x01) << 14; self.w } } #[doc = r"Value of the field"] pub struct CALPR { bits: bool, } impl CALPR { #[doc = r"Value of the field as raw bits"] #[inline(always)] pub fn bit(&self) -> bool { self.bits } #[doc = r"Returns `true` if the bit is clear (0)"] #[inline(always)] pub fn bit_is_clear(&self) -> bool { !self.bit() } #[doc = r"Returns `true` if the bit is set (1)"] #[inline(always)] pub fn bit_is_set(&self) -> bool { self.bit() } } #[doc = r"Proxy"] pub struct _CALPW<'a> { w: &'a mut W, } impl<'a> _CALPW<'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 &= !(0x01 << 15); self.w.bits |= ((value as u32) & 0x01) << 15; self.w } } impl R { #[doc = r"Value of the register as raw bits"] #[inline(always)] pub fn bits(&self) -> u32 { self.bits } #[doc = "Bits 0:8 - Calibration minus The frequency of the calendar is reduced by masking CALM out of 220 RTCCLK pulses (32 seconds if the input frequency is 32768 Hz). This decreases the frequency of the calendar with a resolution of 0.9537 ppm. To increase the frequency of the calendar, this feature should be used in conjunction with CALP. See Section24.3.12: RTC smooth digital calibration on page13."] #[inline(always)] pub fn calm(&self) -> CALMR { let bits = ((self.bits >> 0) & 0x01ff) as u16; CALMR { bits } } #[doc = "Bit 13 - Use a 16-second calibration cycle period When CALW16 is set to 1, the 16-second calibration cycle period is selected.This bit must not be set to 1 if CALW8=1. Note: CALM\\[0\\] is stuck at 0 when CALW16= 1. Refer to Section24.3.12: RTC smooth digital calibration."] #[inline(always)] pub fn calw16(&self) -> CALW16R { let bits = ((self.bits >> 13) & 0x01) != 0; CALW16R { bits } } #[doc = "Bit 14 - Use an 8-second calibration cycle period When CALW8 is set to 1, the 8-second calibration cycle period is selected. Note: CALM\\[1:0\\] are stuck at 00; when CALW8= 1. Refer to Section24.3.12: RTC smooth digital calibration."] #[inline(always)] pub fn calw8(&self) -> CALW8R { let bits = ((self.bits >> 14) & 0x01) != 0; CALW8R { bits } } #[doc = "Bit 15 - Increase frequency of RTC by 488.5 ppm This feature is intended to be used in conjunction with CALM, which lowers the frequency of the calendar with a fine resolution. if the input frequency is 32768 Hz, the number of RTCCLK pulses added during a 32-second window is calculated as follows: (512 * CALP) - CALM. Refer to Section24.3.12: RTC smooth digital calibration."] #[inline(always)] pub fn calp(&self) -> CALPR { let bits = ((self.bits >> 15) & 0x01) != 0; CALPR { bits } } } impl W { #[doc = r"Writes raw bits to the register"] #[inline(always)] pub unsafe fn bits(&mut self, bits: u32) -> &mut Self { self.bits = bits; self } #[doc = "Bits 0:8 - Calibration minus The frequency of the calendar is reduced by masking CALM out of 220 RTCCLK pulses (32 seconds if the input frequency is 32768 Hz). This decreases the frequency of the calendar with a resolution of 0.9537 ppm. To increase the frequency of the calendar, this feature should be used in conjunction with CALP. See Section24.3.12: RTC smooth digital calibration on page13."] #[inline(always)] pub fn calm(&mut self) -> _CALMW { _CALMW { w: self } } #[doc = "Bit 13 - Use a 16-second calibration cycle period When CALW16 is set to 1, the 16-second calibration cycle period is selected.This bit must not be set to 1 if CALW8=1. Note: CALM\\[0\\] is stuck at 0 when CALW16= 1. Refer to Section24.3.12: RTC smooth digital calibration."] #[inline(always)] pub fn calw16(&mut self) -> _CALW16W { _CALW16W { w: self } } #[doc = "Bit 14 - Use an 8-second calibration cycle period When CALW8 is set to 1, the 8-second calibration cycle period is selected. Note: CALM\\[1:0\\] are stuck at 00; when CALW8= 1. Refer to Section24.3.12: RTC smooth digital calibration."] #[inline(always)] pub fn calw8(&mut self) -> _CALW8W { _CALW8W { w: self } } #[doc = "Bit 15 - Increase frequency of RTC by 488.5 ppm This feature is intended to be used in conjunction with CALM, which lowers the frequency of the calendar with a fine resolution. if the input frequency is 32768 Hz, the number of RTCCLK pulses added during a 32-second window is calculated as follows: (512 * CALP) - CALM. Refer to Section24.3.12: RTC smooth digital calibration."] #[inline(always)] pub fn calp(&mut self) -> _CALPW { _CALPW { w: self } } }