use std::cmp::Ordering; use crate::wchar::prelude::*; #[derive(Debug, Copy, Clone, PartialEq, Eq)] pub struct Color24 { pub r: u8, pub g: u8, pub b: u8, } impl Color24 { fn from_bits(bits: u32) -> Self { assert_eq!(bits >> 24, 0, "from_bits() called with non-zero high byte"); Self { r: (bits >> 16) as u8, g: (bits >> 8) as u8, b: bits as u8, } } } #[derive(Debug, Copy, Clone, PartialEq, Eq)] pub enum Type { // TODO: remove this? Users should probably use `Option` instead None, Named { idx: u8 }, Rgb(Color24), Normal, Reset, } #[derive(Debug, Default, Copy, Clone, PartialEq, Eq)] pub struct Flags { pub bold: bool, pub underline: bool, pub italics: bool, pub dim: bool, pub reverse: bool, } impl Flags { // const eval workaround const DEFAULT: Self = Flags { bold: false, underline: false, italics: false, dim: false, reverse: false, }; } /// A type that represents a color. #[derive(Debug, Copy, Clone, PartialEq, Eq)] pub struct RgbColor { pub typ: Type, pub flags: Flags, } impl RgbColor { /// The color white pub const WHITE: Self = Self { typ: Type::Named { idx: 7 }, flags: Flags::DEFAULT, }; /// The color black pub const BLACK: Self = Self { typ: Type::Named { idx: 0 }, flags: Flags::DEFAULT, }; /// The reset special color. pub const RESET: Self = Self { typ: Type::Reset, flags: Flags::DEFAULT, }; /// The normal special color. pub const NORMAL: Self = Self { typ: Type::Normal, flags: Flags::DEFAULT, }; /// The none special color. pub const NONE: Self = Self { typ: Type::None, flags: Flags::DEFAULT, }; /// Parse a color from a string. pub fn from_wstr(s: &wstr) -> Option { Self::try_parse_special(s) .or_else(|| Self::try_parse_named(s)) .or_else(|| Self::try_parse_rgb(s)) } /// Create an RGB color. pub fn from_rgb(r: u8, g: u8, b: u8) -> Self { Self { typ: Type::Rgb(Color24 { r, g, b }), flags: Flags::DEFAULT, } } /// Returns whether the color is the normal special color. pub const fn is_normal(self) -> bool { matches!(self.typ, Type::Normal) } /// Returns whether the color is the reset special color. pub const fn is_reset(self) -> bool { matches!(self.typ, Type::Reset) } /// Returns whether the color is the none special color. pub const fn is_none(self) -> bool { matches!(self.typ, Type::None) } /// Returns whether the color is a named color (like "magenta"). pub const fn is_named(self) -> bool { matches!(self.typ, Type::Named { .. }) } /// Returns whether the color is specified via RGB components. pub const fn is_rgb(self) -> bool { matches!(self.typ, Type::Rgb(_)) } /// Returns whether the color is special, that is, not rgb or named. pub const fn is_special(self) -> bool { !self.is_named() && !self.is_rgb() } /// Returns whether the color is bold. pub const fn is_bold(self) -> bool { self.flags.bold } /// Set whether the color is bold. pub fn set_bold(&mut self, bold: bool) { self.flags.bold = bold; } /// Returns whether the color is underlined. pub const fn is_underline(self) -> bool { self.flags.underline } /// Set whether the color is underline. pub fn set_underline(&mut self, underline: bool) { self.flags.underline = underline; } /// Returns whether the color is italics. pub const fn is_italics(self) -> bool { self.flags.italics } /// Set whether the color is italics. pub fn set_italics(&mut self, italics: bool) { self.flags.italics = italics; } /// Returns whether the color is dim. pub const fn is_dim(self) -> bool { self.flags.dim } /// Set whether the color is dim. pub fn set_dim(&mut self, dim: bool) { self.flags.dim = dim; } /// Returns whether the color is reverse. pub const fn is_reverse(self) -> bool { self.flags.reverse } /// Set whether the color is reverse. pub fn set_reverse(&mut self, reverse: bool) { self.flags.reverse = reverse; } /// Returns the name index for the given color. Requires that the color be named or RGB. pub fn to_name_index(self) -> u8 { // TODO: This should look for the nearest color. match self.typ { Type::Named { idx } => idx, Type::Rgb(c) => term16_color_for_rgb(c), Type::None | Type::Normal | Type::Reset => { panic!("to_name_index() called on Color that's not named or RGB") } } } /// Returns the term256 index for the given color. Requires that the color be RGB. pub fn to_term256_index(self) -> u8 { let Type::Rgb(c) = self.typ else { panic!("Tried to get term256 index of non-RGB color"); }; term256_color_for_rgb(c) } /// Returns the 24 bit color for the given color. Requires that the color be RGB. pub const fn to_color24(self) -> Color24 { let Type::Rgb(c) = self.typ else { panic!("Tried to get color24 of non-RGB color"); }; c } /// Returns the names of all named colors. pub fn named_color_names() -> Vec<&'static wstr> { let mut v: Vec<_> = NAMED_COLORS .iter() .filter_map(|&NamedColor { name, hidden, .. }| (!hidden).then_some(name)) .collect(); // "normal" isn't really a color and does not have a color palette index or // RGB value. Therefore, it does not appear in the NAMED_COLORS table. // However, it is a legitimate color name for the "set_color" command so // include it in the publicly known list of colors. This is primarily so it // appears in the output of "set_color --print-colors". v.push(L!("normal")); v } /// Try parsing a special color name like "normal". #[widestrs] fn try_parse_special(special: &wstr) -> Option { // TODO: this is a very hot function, may need optimization by e.g. comparing length first, // depending on how well inlining of `simple_icase_compare` works let typ = if simple_icase_compare(special, "normal"L) == Ordering::Equal { Type::Normal } else if simple_icase_compare(special, "reset"L) == Ordering::Equal { Type::Reset } else { return None; }; Some(Self { typ, flags: Flags::default(), }) } /// Try parsing an rgb color like "#F0A030". /// /// We support the following style of rgb formats (case insensitive): /// /// - `#FA3` /// - `#F3A035` /// - `FA3` /// - `F3A035` fn try_parse_rgb(mut s: &wstr) -> Option { // Skip any leading #. if s.chars().next()? == '#' { s = &s[1..]; } let hex_digit = |i| -> Option { s.char_at(i) .to_digit(16) .map(|n| n.try_into().expect("hex digit should always be < 256")) }; let r; let g; let b; if s.len() == 3 { // Format: FA3 r = hex_digit(0)? * 16 + hex_digit(0)?; g = hex_digit(1)? * 16 + hex_digit(1)?; b = hex_digit(2)? * 16 + hex_digit(2)?; } else if s.len() == 6 { // Format: F3A035 r = hex_digit(0)? * 16 + hex_digit(1)?; g = hex_digit(2)? * 16 + hex_digit(3)?; b = hex_digit(4)? * 16 + hex_digit(5)?; } else { return None; } Some(RgbColor::from_rgb(r, g, b)) } /// Try parsing an explicit color name like "magenta". fn try_parse_named(name: &wstr) -> Option { let i = NAMED_COLORS .binary_search_by(|c| simple_icase_compare(c.name, name)) .ok()?; Some(Self { typ: Type::Named { idx: NAMED_COLORS[i].idx, }, flags: Flags::default(), }) } } /// Compare wide strings with simple ASCII canonicalization. #[inline(always)] fn simple_icase_compare(s1: &wstr, s2: &wstr) -> Ordering { let c1 = s1.chars().map(|c| c.to_ascii_lowercase()); let c2 = s2.chars().map(|c| c.to_ascii_lowercase()); c1.cmp(c2) } struct NamedColor { name: &'static wstr, idx: u8, rgb: [u8; 3], hidden: bool, } #[widestrs] #[rustfmt::skip] const NAMED_COLORS: &[NamedColor] = &[ // Keep this sorted alphabetically NamedColor {name: "black"L, idx: 0, rgb: [0x00, 0x00, 0x00], hidden: false}, NamedColor {name: "blue"L, idx: 4, rgb: [0x00, 0x00, 0x80], hidden: false}, NamedColor {name: "brblack"L, idx: 8, rgb: [0x80, 0x80, 0x80], hidden: false}, NamedColor {name: "brblue"L, idx: 12, rgb: [0x00, 0x00, 0xFF], hidden: false}, NamedColor {name: "brbrown"L, idx: 11, rgb: [0xFF, 0xFF, 0x00], hidden: true}, NamedColor {name: "brcyan"L, idx: 14, rgb: [0x00, 0xFF, 0xFF], hidden: false}, NamedColor {name: "brgreen"L, idx: 10, rgb: [0x00, 0xFF, 0x00], hidden: false}, NamedColor {name: "brgrey"L, idx: 8, rgb: [0x55, 0x55, 0x55], hidden: true}, NamedColor {name: "brmagenta"L, idx: 13, rgb: [0xFF, 0x00, 0xFF], hidden: false}, NamedColor {name: "brown"L, idx: 3, rgb: [0x72, 0x50, 0x00], hidden: true}, NamedColor {name: "brpurple"L, idx: 13, rgb: [0xFF, 0x00, 0xFF], hidden: true}, NamedColor {name: "brred"L, idx: 9, rgb: [0xFF, 0x00, 0x00], hidden: false}, NamedColor {name: "brwhite"L, idx: 15, rgb: [0xFF, 0xFF, 0xFF], hidden: false}, NamedColor {name: "bryellow"L, idx: 11, rgb: [0xFF, 0xFF, 0x00], hidden: false}, NamedColor {name: "cyan"L, idx: 6, rgb: [0x00, 0x80, 0x80], hidden: false}, NamedColor {name: "green"L, idx: 2, rgb: [0x00, 0x80, 0x00], hidden: false}, NamedColor {name: "grey"L, idx: 7, rgb: [0xE5, 0xE5, 0xE5], hidden: true}, NamedColor {name: "magenta"L, idx: 5, rgb: [0x80, 0x00, 0x80], hidden: false}, NamedColor {name: "purple"L, idx: 5, rgb: [0x80, 0x00, 0x80], hidden: true}, NamedColor {name: "red"L, idx: 1, rgb: [0x80, 0x00, 0x00], hidden: false}, NamedColor {name: "white"L, idx: 7, rgb: [0xC0, 0xC0, 0xC0], hidden: false}, NamedColor {name: "yellow"L, idx: 3, rgb: [0x80, 0x80, 0x00], hidden: false}, ]; assert_sorted_by_name!(NAMED_COLORS); fn convert_color(color: Color24, colors: &[u32]) -> usize { fn squared_difference(a: u8, b: u8) -> u32 { let a = u32::from(a); let b = u32::from(b); a.abs_diff(b).pow(2) } colors .iter() .enumerate() .min_by_key(|&(_i, c)| { let Color24 { r, g, b } = Color24::from_bits(*c); squared_difference(r, color.r) + squared_difference(g, color.g) + squared_difference(b, color.b) }) .expect("convert_color() called with empty color list") .0 } fn term16_color_for_rgb(color: Color24) -> u8 { const COLORS: &[u32] = &[ 0x000000, // Black 0x800000, // Red 0x008000, // Green 0x808000, // Yellow 0x000080, // Blue 0x800080, // Magenta 0x008080, // Cyan 0xc0c0c0, // White 0x808080, // Bright Black 0xFF0000, // Bright Red 0x00FF00, // Bright Green 0xFFFF00, // Bright Yellow 0x0000FF, // Bright Blue 0xFF00FF, // Bright Magenta 0x00FFFF, // Bright Cyan 0xFFFFFF, // Bright White ]; convert_color(color, COLORS).try_into().unwrap() } fn term256_color_for_rgb(color: Color24) -> u8 { const COLORS: &[u32] = &[ 0x000000, 0x00005f, 0x000087, 0x0000af, 0x0000d7, 0x0000ff, 0x005f00, 0x005f5f, 0x005f87, 0x005faf, 0x005fd7, 0x005fff, 0x008700, 0x00875f, 0x008787, 0x0087af, 0x0087d7, 0x0087ff, 0x00af00, 0x00af5f, 0x00af87, 0x00afaf, 0x00afd7, 0x00afff, 0x00d700, 0x00d75f, 0x00d787, 0x00d7af, 0x00d7d7, 0x00d7ff, 0x00ff00, 0x00ff5f, 0x00ff87, 0x00ffaf, 0x00ffd7, 0x00ffff, 0x5f0000, 0x5f005f, 0x5f0087, 0x5f00af, 0x5f00d7, 0x5f00ff, 0x5f5f00, 0x5f5f5f, 0x5f5f87, 0x5f5faf, 0x5f5fd7, 0x5f5fff, 0x5f8700, 0x5f875f, 0x5f8787, 0x5f87af, 0x5f87d7, 0x5f87ff, 0x5faf00, 0x5faf5f, 0x5faf87, 0x5fafaf, 0x5fafd7, 0x5fafff, 0x5fd700, 0x5fd75f, 0x5fd787, 0x5fd7af, 0x5fd7d7, 0x5fd7ff, 0x5fff00, 0x5fff5f, 0x5fff87, 0x5fffaf, 0x5fffd7, 0x5fffff, 0x870000, 0x87005f, 0x870087, 0x8700af, 0x8700d7, 0x8700ff, 0x875f00, 0x875f5f, 0x875f87, 0x875faf, 0x875fd7, 0x875fff, 0x878700, 0x87875f, 0x878787, 0x8787af, 0x8787d7, 0x8787ff, 0x87af00, 0x87af5f, 0x87af87, 0x87afaf, 0x87afd7, 0x87afff, 0x87d700, 0x87d75f, 0x87d787, 0x87d7af, 0x87d7d7, 0x87d7ff, 0x87ff00, 0x87ff5f, 0x87ff87, 0x87ffaf, 0x87ffd7, 0x87ffff, 0xaf0000, 0xaf005f, 0xaf0087, 0xaf00af, 0xaf00d7, 0xaf00ff, 0xaf5f00, 0xaf5f5f, 0xaf5f87, 0xaf5faf, 0xaf5fd7, 0xaf5fff, 0xaf8700, 0xaf875f, 0xaf8787, 0xaf87af, 0xaf87d7, 0xaf87ff, 0xafaf00, 0xafaf5f, 0xafaf87, 0xafafaf, 0xafafd7, 0xafafff, 0xafd700, 0xafd75f, 0xafd787, 0xafd7af, 0xafd7d7, 0xafd7ff, 0xafff00, 0xafff5f, 0xafff87, 0xafffaf, 0xafffd7, 0xafffff, 0xd70000, 0xd7005f, 0xd70087, 0xd700af, 0xd700d7, 0xd700ff, 0xd75f00, 0xd75f5f, 0xd75f87, 0xd75faf, 0xd75fd7, 0xd75fff, 0xd78700, 0xd7875f, 0xd78787, 0xd787af, 0xd787d7, 0xd787ff, 0xd7af00, 0xd7af5f, 0xd7af87, 0xd7afaf, 0xd7afd7, 0xd7afff, 0xd7d700, 0xd7d75f, 0xd7d787, 0xd7d7af, 0xd7d7d7, 0xd7d7ff, 0xd7ff00, 0xd7ff5f, 0xd7ff87, 0xd7ffaf, 0xd7ffd7, 0xd7ffff, 0xff0000, 0xff005f, 0xff0087, 0xff00af, 0xff00d7, 0xff00ff, 0xff5f00, 0xff5f5f, 0xff5f87, 0xff5faf, 0xff5fd7, 0xff5fff, 0xff8700, 0xff875f, 0xff8787, 0xff87af, 0xff87d7, 0xff87ff, 0xffaf00, 0xffaf5f, 0xffaf87, 0xffafaf, 0xffafd7, 0xffafff, 0xffd700, 0xffd75f, 0xffd787, 0xffd7af, 0xffd7d7, 0xffd7ff, 0xffff00, 0xffff5f, 0xffff87, 0xffffaf, 0xffffd7, 0xffffff, 0x080808, 0x121212, 0x1c1c1c, 0x262626, 0x303030, 0x3a3a3a, 0x444444, 0x4e4e4e, 0x585858, 0x626262, 0x6c6c6c, 0x767676, 0x808080, 0x8a8a8a, 0x949494, 0x9e9e9e, 0xa8a8a8, 0xb2b2b2, 0xbcbcbc, 0xc6c6c6, 0xd0d0d0, 0xdadada, 0xe4e4e4, 0xeeeeee, ]; (16 + convert_color(color, COLORS)).try_into().unwrap() } /// FFI junk. use crate::ffi::rgb_color_t; impl rgb_color_t { /// Convert from a C++ rgb_color_t to a Rust RgbColor. #[allow(clippy::wrong_self_convention)] pub fn from_ffi(&self) -> RgbColor { let typ = if self.is_normal() { Type::Normal } else if self.is_reset() { Type::Reset } else if self.is_none() { Type::None } else if self.is_named() { let idx = self.to_name_index(); Type::Named { idx } } else if self.is_rgb() { let [r, g, b] = self.to_color24().rgb; Type::Rgb(Color24 { r, g, b }) } else { unreachable!("Unknown color type") }; let flags = Flags { bold: self.is_bold(), underline: self.is_underline(), italics: self.is_italics(), dim: self.is_dim(), reverse: self.is_reverse(), }; RgbColor { typ, flags } } } #[cfg(test)] mod tests { use crate::color::{Color24, Flags, RgbColor, Type}; use crate::wchar::prelude::*; #[test] #[widestrs] fn parse() { assert!(RgbColor::from_wstr("#FF00A0"L).unwrap().is_rgb()); assert!(RgbColor::from_wstr("FF00A0"L).unwrap().is_rgb()); assert!(RgbColor::from_wstr("#F30"L).unwrap().is_rgb()); assert!(RgbColor::from_wstr("F30"L).unwrap().is_rgb()); assert!(RgbColor::from_wstr("f30"L).unwrap().is_rgb()); assert!(RgbColor::from_wstr("#FF30a5"L).unwrap().is_rgb()); assert!(RgbColor::from_wstr("3f30"L).is_none()); assert!(RgbColor::from_wstr("##f30"L).is_none()); assert!(RgbColor::from_wstr("magenta"L).unwrap().is_named()); assert!(RgbColor::from_wstr("MaGeNTa"L).unwrap().is_named()); assert!(RgbColor::from_wstr("mooganta"L).is_none()); } #[test] #[widestrs] fn parse_rgb() { assert!(RgbColor::from_wstr("##FF00A0"L) == None); assert!(RgbColor::from_wstr("#FF00A0"L) == Some(RgbColor::from_rgb(0xff, 0x00, 0xa0))); assert!(RgbColor::from_wstr("FF00A0"L) == Some(RgbColor::from_rgb(0xff, 0x00, 0xa0))); assert!(RgbColor::from_wstr("FAF"L) == Some(RgbColor::from_rgb(0xff, 0xaa, 0xff))); } // Regression test for multiplicative overflow in convert_color. #[test] fn test_term16_color_for_rgb() { for c in 0..=u8::MAX { let color = RgbColor { typ: Type::Rgb(Color24 { r: c, g: c, b: c }), flags: Flags::DEFAULT, }; let _ = color.to_name_index(); } } } crate::ffi_tests::add_test!("test_colors_ffi", || { use autocxx::WithinUniquePtr; use moveit::moveit; assert_eq!(RgbColor::WHITE, moveit!(rgb_color_t::white()).from_ffi()); assert_eq!(RgbColor::BLACK, moveit!(rgb_color_t::black()).from_ffi()); assert_eq!(RgbColor::RESET, moveit!(rgb_color_t::reset()).from_ffi()); assert_eq!(RgbColor::NORMAL, moveit!(rgb_color_t::normal()).from_ffi()); assert_eq!(RgbColor::NONE, moveit!(rgb_color_t::none()).from_ffi()); let mut cxx_color = rgb_color_t::black().within_unique_ptr(); cxx_color.as_mut().unwrap().set_bold(true); cxx_color.as_mut().unwrap().set_dim(true); let mut rust_color = RgbColor::BLACK; assert_ne!(rust_color, cxx_color.as_ref().unwrap().from_ffi()); rust_color.set_bold(true); assert_ne!(rust_color, cxx_color.as_ref().unwrap().from_ffi()); rust_color.set_dim(true); assert_eq!(rust_color, cxx_color.as_ref().unwrap().from_ffi()); });