/// One of the 8 base colors. #[derive(Clone, Copy, Debug, PartialEq, Eq, Hash)] pub enum BaseColor { /// Black color /// /// Color #0 Black, /// Red color /// /// Color #1 Red, /// Green color /// /// Color #2 Green, /// Yellow color (Red + Green) /// /// Color #3 Yellow, /// Blue color /// /// Color #4 Blue, /// Magenta color (Red + Blue) /// /// Color #5 Magenta, /// Cyan color (Green + Blue) /// /// Color #6 Cyan, /// White color (Red + Green + Blue) /// /// Color #7 White, } impl From for BaseColor { fn from(n: u8) -> Self { match n % 8 { 0 => BaseColor::Black, 1 => BaseColor::Red, 2 => BaseColor::Green, 3 => BaseColor::Yellow, 4 => BaseColor::Blue, 5 => BaseColor::Magenta, 6 => BaseColor::Cyan, 7 => BaseColor::White, _ => unreachable!(), } } } /// Represents a color used by the theme. #[derive(Clone, Copy, Debug, PartialEq, Eq, Hash)] pub enum Color { /// Represents a color, preset by terminal. TerminalDefault, /// One of the 8 base colors. /// /// Note: the actual color used depends on the terminal configuration. Dark(BaseColor), /// Lighter version of a base color. /// /// Note: the actual color used depends on the terminal configuration. Light(BaseColor), /// True-color, 24-bit. Rgb(u8, u8, u8), /// Low-resolution /// /// Each value should be `<= 5` (you'll get panics otherwise). /// /// These 216 possible colors are part of the default color palette. RgbLowRes(u8, u8, u8), } impl Color { /// Creates a color from its ID in the 256 colors list. /// /// * Colors 0-7 are base dark colors. /// * Colors 8-15 are base light colors. /// * Colors 16-231 are rgb colors with 6 values per channel (216 colors). /// * Colors 232-255 are grayscale colors. pub fn from_256colors(n: u8) -> Self { if n < 8 { Color::Dark(BaseColor::from(n)) } else if n < 16 { Color::Light(BaseColor::from(n)) } else if n >= 232 { let n = n - 232; let value = 8 + 10 * n; // TODO: returns a Grayscale value? Color::Rgb(value, value, value) } else { let n = n - 16; let r = n / 36; let g = (n % 36) / 6; let b = n % 6; assert!(r < 5); assert!(g < 5); assert!(b < 5); Color::RgbLowRes(r, g, b) } } pub(crate) fn parse(value: &str) -> Option { Some(match value { "black" => Color::Dark(BaseColor::Black), "red" => Color::Dark(BaseColor::Red), "green" => Color::Dark(BaseColor::Green), "yellow" => Color::Dark(BaseColor::Yellow), "blue" => Color::Dark(BaseColor::Blue), "magenta" => Color::Dark(BaseColor::Magenta), "cyan" => Color::Dark(BaseColor::Cyan), "white" => Color::Dark(BaseColor::White), "light black" => Color::Light(BaseColor::Black), "light red" => Color::Light(BaseColor::Red), "light green" => Color::Light(BaseColor::Green), "light yellow" => Color::Light(BaseColor::Yellow), "light blue" => Color::Light(BaseColor::Blue), "light magenta" => Color::Light(BaseColor::Magenta), "light cyan" => Color::Light(BaseColor::Cyan), "light white" => Color::Light(BaseColor::White), "default" => Color::TerminalDefault, value => return Color::parse_special(value), }) } fn parse_special(value: &str) -> Option { if value.starts_with('#') { let value = &value[1..]; // Compute per-color length, and amplitude let (l, multiplier) = match value.len() { 6 => (2, 1), 3 => (1, 17), _ => panic!("Cannot parse color: {}", value), }; let r = load_hex(&value[0..l]) * multiplier; let g = load_hex(&value[l..2 * l]) * multiplier; let b = load_hex(&value[2 * l..3 * l]) * multiplier; Some(Color::Rgb(r as u8, g as u8, b as u8)) } else if value.len() == 3 { // RGB values between 0 and 5 maybe? let rgb: Vec<_> = value.chars().map(|c| c as i16 - '0' as i16).collect(); if rgb.iter().all(|&i| i >= 0 && i < 6) { Some(Color::RgbLowRes( rgb[0] as u8, rgb[1] as u8, rgb[2] as u8, )) } else { None } } else { None } } } /// Loads a hexadecimal code fn load_hex(s: &str) -> u16 { let mut sum = 0; for c in s.chars() { sum *= 16; sum += match c { n @ '0'...'9' => n as i16 - '0' as i16, n @ 'a'...'f' => n as i16 - 'a' as i16 + 10, n @ 'A'...'F' => n as i16 - 'A' as i16 + 10, _ => 0, }; } sum as u16 }