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#[doc = "Reader of register OPFCCR"] pub type R = crate::R<u32, super::OPFCCR>; #[doc = "Writer for register OPFCCR"] pub type W = crate::W<u32, super::OPFCCR>; #[doc = "Register OPFCCR `reset()`'s with value 0"] impl crate::ResetValue for super::OPFCCR { type Type = u32; #[inline(always)] fn reset_value() -> Self::Type { 0 } } #[doc = "Color mode These bits define the color format of the output image. These bits can only be written when data transfers are disabled. Once the transfer has started, they are read-only. others: meaningless\n\nValue on reset: 0"] #[derive(Clone, Copy, Debug, PartialEq)] #[repr(u8)] pub enum CM_A { #[doc = "0: ARGB8888"] ARGB8888 = 0, #[doc = "1: RGB888"] RGB888 = 1, #[doc = "2: RGB565"] RGB565 = 2, #[doc = "3: ARGB1555"] ARGB1555 = 3, #[doc = "4: ARGB4444"] ARGB4444 = 4, } impl From<CM_A> for u8 { #[inline(always)] fn from(variant: CM_A) -> Self { variant as _ } } #[doc = "Reader of field `CM`"] pub type CM_R = crate::R<u8, CM_A>; impl CM_R { #[doc = r"Get enumerated values variant"] #[inline(always)] pub fn variant(&self) -> crate::Variant<u8, CM_A> { use crate::Variant::*; match self.bits { 0 => Val(CM_A::ARGB8888), 1 => Val(CM_A::RGB888), 2 => Val(CM_A::RGB565), 3 => Val(CM_A::ARGB1555), 4 => Val(CM_A::ARGB4444), i => Res(i), } } #[doc = "Checks if the value of the field is `ARGB8888`"] #[inline(always)] pub fn is_argb8888(&self) -> bool { *self == CM_A::ARGB8888 } #[doc = "Checks if the value of the field is `RGB888`"] #[inline(always)] pub fn is_rgb888(&self) -> bool { *self == CM_A::RGB888 } #[doc = "Checks if the value of the field is `RGB565`"] #[inline(always)] pub fn is_rgb565(&self) -> bool { *self == CM_A::RGB565 } #[doc = "Checks if the value of the field is `ARGB1555`"] #[inline(always)] pub fn is_argb1555(&self) -> bool { *self == CM_A::ARGB1555 } #[doc = "Checks if the value of the field is `ARGB4444`"] #[inline(always)] pub fn is_argb4444(&self) -> bool { *self == CM_A::ARGB4444 } } #[doc = "Write proxy for field `CM`"] pub struct CM_W<'a> { w: &'a mut W, } impl<'a> CM_W<'a> { #[doc = r"Writes `variant` to the field"] #[inline(always)] pub fn variant(self, variant: CM_A) -> &'a mut W { unsafe { self.bits(variant.into()) } } #[doc = "ARGB8888"] #[inline(always)] pub fn argb8888(self) -> &'a mut W { self.variant(CM_A::ARGB8888) } #[doc = "RGB888"] #[inline(always)] pub fn rgb888(self) -> &'a mut W { self.variant(CM_A::RGB888) } #[doc = "RGB565"] #[inline(always)] pub fn rgb565(self) -> &'a mut W { self.variant(CM_A::RGB565) } #[doc = "ARGB1555"] #[inline(always)] pub fn argb1555(self) -> &'a mut W { self.variant(CM_A::ARGB1555) } #[doc = "ARGB4444"] #[inline(always)] pub fn argb4444(self) -> &'a mut W { self.variant(CM_A::ARGB4444) } #[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 & !0x07) | ((value as u32) & 0x07); self.w } } #[doc = "Alpha Inverted This bit inverts the alpha value. Once the transfer has started, this bit is read-only.\n\nValue on reset: 0"] #[derive(Clone, Copy, Debug, PartialEq)] pub enum AI_A { #[doc = "0: Regular alpha"] REGULARALPHA = 0, #[doc = "1: Inverted alpha"] INVERTEDALPHA = 1, } impl From<AI_A> for bool { #[inline(always)] fn from(variant: AI_A) -> Self { variant as u8 != 0 } } #[doc = "Reader of field `AI`"] pub type AI_R = crate::R<bool, AI_A>; impl AI_R { #[doc = r"Get enumerated values variant"] #[inline(always)] pub fn variant(&self) -> AI_A { match self.bits { false => AI_A::REGULARALPHA, true => AI_A::INVERTEDALPHA, } } #[doc = "Checks if the value of the field is `REGULARALPHA`"] #[inline(always)] pub fn is_regular_alpha(&self) -> bool { *self == AI_A::REGULARALPHA } #[doc = "Checks if the value of the field is `INVERTEDALPHA`"] #[inline(always)] pub fn is_inverted_alpha(&self) -> bool { *self == AI_A::INVERTEDALPHA } } #[doc = "Write proxy for field `AI`"] pub struct AI_W<'a> { w: &'a mut W, } impl<'a> AI_W<'a> { #[doc = r"Writes `variant` to the field"] #[inline(always)] pub fn variant(self, variant: AI_A) -> &'a mut W { { self.bit(variant.into()) } } #[doc = "Regular alpha"] #[inline(always)] pub fn regular_alpha(self) -> &'a mut W { self.variant(AI_A::REGULARALPHA) } #[doc = "Inverted alpha"] #[inline(always)] pub fn inverted_alpha(self) -> &'a mut W { self.variant(AI_A::INVERTEDALPHA) } #[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 << 20)) | (((value as u32) & 0x01) << 20); self.w } } #[doc = "Red Blue Swap This bit allows to swap the R & B to support BGR or ABGR color formats. Once the transfer has started, this bit is read-only.\n\nValue on reset: 0"] #[derive(Clone, Copy, Debug, PartialEq)] pub enum RBS_A { #[doc = "0: No Red Blue Swap (RGB or ARGB)"] REGULAR = 0, #[doc = "1: Red Blue Swap (BGR or ABGR)"] SWAP = 1, } impl From<RBS_A> for bool { #[inline(always)] fn from(variant: RBS_A) -> Self { variant as u8 != 0 } } #[doc = "Reader of field `RBS`"] pub type RBS_R = crate::R<bool, RBS_A>; impl RBS_R { #[doc = r"Get enumerated values variant"] #[inline(always)] pub fn variant(&self) -> RBS_A { match self.bits { false => RBS_A::REGULAR, true => RBS_A::SWAP, } } #[doc = "Checks if the value of the field is `REGULAR`"] #[inline(always)] pub fn is_regular(&self) -> bool { *self == RBS_A::REGULAR } #[doc = "Checks if the value of the field is `SWAP`"] #[inline(always)] pub fn is_swap(&self) -> bool { *self == RBS_A::SWAP } } #[doc = "Write proxy for field `RBS`"] pub struct RBS_W<'a> { w: &'a mut W, } impl<'a> RBS_W<'a> { #[doc = r"Writes `variant` to the field"] #[inline(always)] pub fn variant(self, variant: RBS_A) -> &'a mut W { { self.bit(variant.into()) } } #[doc = "No Red Blue Swap (RGB or ARGB)"] #[inline(always)] pub fn regular(self) -> &'a mut W { self.variant(RBS_A::REGULAR) } #[doc = "Red Blue Swap (BGR or ABGR)"] #[inline(always)] pub fn swap(self) -> &'a mut W { self.variant(RBS_A::SWAP) } #[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 << 21)) | (((value as u32) & 0x01) << 21); self.w } } #[doc = "Swap Bytes\n\nValue on reset: 0"] #[derive(Clone, Copy, Debug, PartialEq)] pub enum SB_A { #[doc = "0: Regular byte order"] REGULAR = 0, #[doc = "1: Bytes are swapped two by two"] SWAPBYTES = 1, } impl From<SB_A> for bool { #[inline(always)] fn from(variant: SB_A) -> Self { variant as u8 != 0 } } #[doc = "Reader of field `SB`"] pub type SB_R = crate::R<bool, SB_A>; impl SB_R { #[doc = r"Get enumerated values variant"] #[inline(always)] pub fn variant(&self) -> SB_A { match self.bits { false => SB_A::REGULAR, true => SB_A::SWAPBYTES, } } #[doc = "Checks if the value of the field is `REGULAR`"] #[inline(always)] pub fn is_regular(&self) -> bool { *self == SB_A::REGULAR } #[doc = "Checks if the value of the field is `SWAPBYTES`"] #[inline(always)] pub fn is_swap_bytes(&self) -> bool { *self == SB_A::SWAPBYTES } } #[doc = "Write proxy for field `SB`"] pub struct SB_W<'a> { w: &'a mut W, } impl<'a> SB_W<'a> { #[doc = r"Writes `variant` to the field"] #[inline(always)] pub fn variant(self, variant: SB_A) -> &'a mut W { { self.bit(variant.into()) } } #[doc = "Regular byte order"] #[inline(always)] pub fn regular(self) -> &'a mut W { self.variant(SB_A::REGULAR) } #[doc = "Bytes are swapped two by two"] #[inline(always)] pub fn swap_bytes(self) -> &'a mut W { self.variant(SB_A::SWAPBYTES) } #[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 } } impl R { #[doc = "Bits 0:2 - Color mode These bits define the color format of the output image. These bits can only be written when data transfers are disabled. Once the transfer has started, they are read-only. others: meaningless"] #[inline(always)] pub fn cm(&self) -> CM_R { CM_R::new((self.bits & 0x07) as u8) } #[doc = "Bit 20 - Alpha Inverted This bit inverts the alpha value. Once the transfer has started, this bit is read-only."] #[inline(always)] pub fn ai(&self) -> AI_R { AI_R::new(((self.bits >> 20) & 0x01) != 0) } #[doc = "Bit 21 - Red Blue Swap This bit allows to swap the R & B to support BGR or ABGR color formats. Once the transfer has started, this bit is read-only."] #[inline(always)] pub fn rbs(&self) -> RBS_R { RBS_R::new(((self.bits >> 21) & 0x01) != 0) } #[doc = "Bit 8 - Swap Bytes"] #[inline(always)] pub fn sb(&self) -> SB_R { SB_R::new(((self.bits >> 8) & 0x01) != 0) } } impl W { #[doc = "Bits 0:2 - Color mode These bits define the color format of the output image. These bits can only be written when data transfers are disabled. Once the transfer has started, they are read-only. others: meaningless"] #[inline(always)] pub fn cm(&mut self) -> CM_W { CM_W { w: self } } #[doc = "Bit 20 - Alpha Inverted This bit inverts the alpha value. Once the transfer has started, this bit is read-only."] #[inline(always)] pub fn ai(&mut self) -> AI_W { AI_W { w: self } } #[doc = "Bit 21 - Red Blue Swap This bit allows to swap the R & B to support BGR or ABGR color formats. Once the transfer has started, this bit is read-only."] #[inline(always)] pub fn rbs(&mut self) -> RBS_W { RBS_W { w: self } } #[doc = "Bit 8 - Swap Bytes"] #[inline(always)] pub fn sb(&mut self) -> SB_W { SB_W { w: self } } }