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@ -1,6 +1,6 @@
[package]
name = "pride"
version = "0.1.5"
version = "0.2.1"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html

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@ -3,14 +3,12 @@
A Rust utility to display pride flags in the terminal.
**This project is under heavy construction! It is subject to major structural and
architectural changes. There are no issues with functionality, but I will continue
to make major changes and refactors until the main roadmap is complete.**
A list of currently implemented flags is available on the [project wiki](https://git.vwolfe.io/valerie/pride/wiki/Flags).
Currently supports a variety of stripe flags.
## Dependencies
Under Construction features:
- ["Complex" Flags](https://git.vwolfe.io/valerie/pride/src/branch/complex)
Some Complex renderers utilize [Powerline's](https://github.com/ryanoasis/powerline-extra-symbols)
slant symbols, and therefore require use of a Powerline font, such as [Fira Code](https://github.com/tonsky/FiraCode).
## Libraries

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@ -1,5 +1,5 @@
use termion::color::{ Fg, Rgb, Reset };
use termion::color::{ Bg, Fg, Rgb, Reset };
pub type Color = Fg<Rgb>;
pub type Colors = Vec<Fg<Rgb>>;
@ -8,8 +8,9 @@ pub static BLACK: Color = Fg(Rgb(0x00, 0x00, 0x00));
pub static WHITE: Color = Fg(Rgb(0xFF, 0xFF, 0xFF));
pub static RESET: Fg<Reset> = Fg(Reset);
pub static RESET_BG: Bg<Reset> = Bg(Reset);
/// converts a hex integer to Fg(Rgb)
/// produces a termion foreground color from the provided integer
pub fn rgb(hex: u32) -> Color {
// colors should be 0xrrggbb = 0x__rrggbb; drop the most significant byte
let [_, r, g, b] = hex.to_be_bytes();
@ -17,3 +18,10 @@ pub fn rgb(hex: u32) -> Color {
Fg(Rgb(r, g, b))
}
/// produces a termion background color from the provided integer
pub fn bg(hex: u32) -> Bg<Rgb> {
let [_, r, g, b] = hex.to_be_bytes();
Bg(Rgb(r, g, b))
}

292
src/complex.rs Normal file
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@ -0,0 +1,292 @@
//! flags that require more complex rendering than just scaling colored stripes
use termion::{
terminal_size,
color::{ Bg, Rgb }
};
use crate::{
color::*,
draw,
flag::{ self, Flag },
util::{ ansi_len, ansi_substr }
};
/// vertically stacking eighths
pub static V_EIGHTH: [char; 7] = ['▁', '▂', '▃', '▄', '▅', '▆', '▇'];
/// horizontally stacking eighths
pub static H_EIGHTH: [char; 7] = ['▏', '▎', '▍', '▌', '▋', '▊', '▉'];
/// shading by intensity
pub static SHADING: [char; 3] = ['░', '▒', '▓'];
/// 2/1 slope triangle cut in
pub static TRIANGLE_21: [char; 3] = ['', '🭬', ''];
/// 2/3 slope slant
pub static SLANT_23: [char; 2] = ['🭒', '🭏'];
pub fn progress(small: bool) -> Flag {
let red = bg(0xE50000);
let orange = bg(0xFF8D00);
let yellow = bg(0xFFEE00);
let green = bg(0x028121);
let blue = bg(0x004CFF);
let purple = bg(0x770088);
// we need these colors in both fg & bg; just hold the integers for now
let black: u32 = 0;
let brown: u32 = 0x784F17;
let ltblue: u32 = 0xEAACB8;
let pink: u32 = 0x7ACBF5;
let white: u32 = 0xFFFFFF;
let (width, height) = if small { (18, 6) } else { terminal_size().unwrap() };
// create color slices and line buffer
let stripes = [red, orange, yellow, green, blue, purple];
let chevrons = [white, ltblue, pink, brown, black];
let mut lines: Vec<String> = Vec::new();
// set up stripe index
let mut index = 0;
/* ok, coming up with procedure:
* - can't rely on bg_stripes; line count, threshold, etc., will need to happen here
* - line count will always be the largest multiple of 6 smaller than height; c = h - (h % 6)
* - chevrons may have larger widths: TODO calc
* - depth will be funky; line depth will need to use "full" depth; (Df - Dl) / Wc = Ic (TODO verify?)
* - switch stripe index on *absolute* line number rather than n
* - chevron building will be BLOCK.repeat(width) + TRIANGLE_21[0] (fg Ic, bg Ic + 1)
* - chevrons[len - 1] will need unique handling to draw stripes
*/
// set up constraints
let linecount = height - (height % 6); // largest multiple of 6 smaller than height
let full_depth = width / 3;
let chevron_width = (full_depth / 6) - 1;
let direction_thresh = linecount / 2;
let corner = linecount % 2 == 1;
let thresh = linecount / 6; // stripe threshold; no bg_stripes call!
let mut line_no = 0; // absolute line number; n is relative
// chevron helper
let build_chevron = | separator: char | -> String {
let mut output = format!(
"{fg}{bg}{stripe}{separator}",
fg = rgb(chevrons[0]),
bg = bg(chevrons[1]),
stripe = draw::BLOCK.repeat( usize::max(chevron_width as usize * 2, 1) )
);
let stripe = draw::BLOCK.repeat(chevron_width as usize);
for i in 1..4 {
output += &format!(
"{fg}{bg}{stripe}{separator}",
fg = rgb(chevrons[i]),
bg = bg(chevrons[i + 1])
);
}
output += &format!(
"{fg}{stripe}",
fg = rgb(chevrons[4])
);
output
};
// piecewise functions: ascent -> peak -> descent
let mut base = build_chevron(TRIANGLE_21[0]);
let base_length = base.len();
let display_length = ansi_len(&base) + 1; // chevron width will always stay the same; add 1 for the last separator
for n in 0..direction_thresh {
// advance stripe color at stripe threshold by line number
if line_no != 0 && line_no % thresh == 0 { index += 1; }
// grab our substring constraints
let start = (direction_thresh - n) as usize - 1;
let diff = display_length - start;
// take substring of chevron line...
let mut line = ansi_substr(&base, start as usize, base_length);
// ... and add the colored stripe
line += &format!(
"{stripe}{separator}{line}",
stripe = stripes[index],
separator = TRIANGLE_21[0],
line = " ".repeat(width as usize - diff)
);
lines.push(line);
line_no += 1;
}
if corner {
if line_no % thresh == 0 { index += 1; }
let base = build_chevron(TRIANGLE_21[1]);
let mut line = ansi_substr(&base, 0, base_length);
line += &format!(
"{stripe}{separator}{line}",
stripe = stripes[index],
separator = TRIANGLE_21[1],
line = " ".repeat(width as usize - display_length)
);
lines.push(line);
line_no += 1;
}
base = build_chevron(TRIANGLE_21[2]);
for n in 0..direction_thresh {
if line_no % thresh == 0 { index += 1; }
if index > 5 { break; }
let start = n as usize;
let diff = display_length - start;
let mut line = ansi_substr(&base, start, base_length);
line += &format!(
"{stripe}{separator}{line}",
stripe = stripes[index],
separator = TRIANGLE_21[2],
line = " ".repeat(width as usize - diff)
);
lines.push(line);
line_no += 1;
}
Flag::Lines(lines)
}
// everything below this point is in alphabetical order
pub fn aroace(small: bool) -> Flag {
// pull colors from aro & ace stripe flags
let Flag::Stripes(aro) = flag::aromantic() else { panic!() };
let Flag::Stripes(ace) = flag::asexual() else { panic!() };
let (width, height) = if small { (60, 20) } else { terminal_size().unwrap() };
let mut lines: Vec<String> = Vec::new();
// set up constraints
let linecount = height - (height % 20);
let aro_thresh = linecount / 5; // threshold for aromantic colors
let ace_thresh = linecount / 4; // threshold for asexual colors
let stripe = draw::BLOCK.repeat((width / 2) as usize);
let mut aro_index = 0;
let mut ace_index = 0;
for n in 0..linecount {
// switch colors on thresholds
if n != 0 {
if n % aro_thresh == 0 { aro_index += 1; }
if n % ace_thresh == 0 { ace_index += 1; }
}
let line = format!("{}{stripe}{}{stripe}", aro[aro_index], ace[ace_index]);
lines.push(line);
}
Flag::Lines(lines)
}
fn demi_orientation_render(middle: Bg<Rgb>, bottom: Bg<Rgb>, width: u16, height: u16) -> Vec<String> {
let white = bg(0xFFFFFF);
let stripes = vec![white, white, middle, bottom, bottom];
// initial stripe output buffer
let mut lines: Vec<String> = draw::bg_stripes(stripes, width, height);
// assemble triangle cut-in
let linecount = lines.len();
let depth = linecount / 2;
let corner = linecount % 2 == 1;
// piecewise functions: ascending -> peak -> descending
for n in 0..depth {
let line = lines[n].clone();
let replacement = format!("{BLACK}{}{}", draw::BLOCK.repeat(n), TRIANGLE_21[0]);
lines[n] = line.replacen(&" ".repeat(n + 1), &replacement, 1);
}
if corner {
let line = lines[depth].clone();
let replacement = format!("{BLACK}{}{}", draw::BLOCK.repeat(depth), TRIANGLE_21[1]);
lines[depth] = line.replacen(&" ".repeat(depth + 1), &replacement, 1);
}
let start = depth + (linecount % 2);
for n in 0..depth {
let line = lines[start + n].clone();
let size = depth - n - 1;
let replacement = format!("{BLACK}{}{}", draw::BLOCK.repeat(size), TRIANGLE_21[2]);
lines[start + n] = line.replacen(&" ".repeat(size + 1), &replacement, 1);
}
lines
}
pub fn demiromantic(small: bool) -> Flag {
let green = bg(0x3DA542);
let gray = bg(0xD2D2D2);
let (width, height) = if small { (15, 5) } else { terminal_size().unwrap() };
let lines = demi_orientation_render(green, gray, width, height);
Flag::Lines(lines)
}
pub fn demisexual(small: bool) -> Flag {
let purple = bg(0x832FA8);
let grey = bg(0x7B868C);
let (width, height) = if small { (15, 5) } else { terminal_size().unwrap() };
let lines = demi_orientation_render(purple, grey, width, height);
Flag::Lines(lines)
}
pub fn disability() {
let gray = bg(0x575757);
let green: u32 = 0x3AAD7D;
let blue: u32 = 0x79BFE0;
let white: u32 = 0xE8E8E8;
let yellow: u32 = 0xEDDB76;
let red: u32 = 0xCD7281;
let stripes = [red, yellow, white, blue, green];
// 2/3 slant stripes with gray background
}
pub fn intersex() -> Flag {
let yellow = bg(0xFFDA00);
let purple = rgb(0x7A00AC);
let block = " ";
let stripe = block.repeat(9);
let part = block.repeat(4);
let lines = vec![
format!("{yellow}{stripe}"),
format!("{part}{purple}O{part}"),
format!("{stripe}")
];
Flag::Lines(lines)
}
pub fn polyamorous() {
let blue = rgb(0x019FE3);
let magenta = rgb(0xE50051);
let purple = rgb(0x340C46);
let yellow = rgb(0x00FCBF);
// blue / magenta / purple vert
// WHITE isosceles cutin with yellow heart pointed right
}

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@ -4,76 +4,110 @@ use termion::{
terminal_size,
clear,
color::{ Bg, Fg, Rgb },
cursor,
input::TermRead,
raw::IntoRawMode
};
use crate::color::{ RESET, Colors };
use crate::flag::BLOCK;
use crate::{
color::{ RESET, RESET_BG },
flag::Flag
};
/// draw a fullscreen stripe flag and hold for keypress
pub fn full(colors: Colors) {
// prepare stdin and stdout
pub static BLOCK: &str = "";
pub static UHALF: &str = "";
pub fn draw_lines(lines: Vec<String>, hold: bool) {
let mut stdout = io::stdout().into_raw_mode().unwrap();
let stdin = io::stdin();
// get constraints
let count = colors.len();
let (width, height) = terminal_size().unwrap();
let thresh = height as usize / count;
let count = lines.len() as u16;
for _ in 0..count { write!(stdout, "\n").ok(); }
write!(stdout, "{}", cursor::Up(count)).ok();
// clear the terminal
write!(stdout, "{}{}", cursor::Hide, clear::All).ok();
if hold { write!(stdout, "{}{}", cursor::Hide, clear::All).ok(); }
let down = cursor::Down(1);
for line in lines {
let left = cursor::Left(line.len() as u16);
write!(stdout, "{line}{left}{down}").ok();
}
write!(stdout, "{RESET}{RESET_BG}").ok();
stdout.flush().ok();
if hold {
let stdin = io::stdin();
for _ in stdin.keys() { break; }
write!(stdout, "{}", clear::All).ok();
}
write!(stdout, "{}", cursor::Show).ok();
stdout.flush().ok();
}
// build terminal width stripe string
let stripe = BLOCK.repeat(width as usize);
pub fn fg_stripes(colors: Vec<Fg<Rgb>>, width: u16, height: u16) -> Vec<String> {
let width = width as usize;
let height = height as usize;
let count = colors.len();
let thresh = height / count;
let stripe = BLOCK.repeat(width);
let mut output = Vec::new();
// create our color index
let mut index = 0;
// for every terminal row...
for n in 0..(height as usize) {
// ... increment our index at color change threshold
for n in 0..height {
if n != 0 && n % thresh == 0 {
index += 1;
// and break if out of bounds
if index >= count { break; }
}
// ... draw the stripe with color at index
write!(
stdout,
"{color}{stripe}{RESET}",
color = colors[index]
).ok();
let color = colors[index];
output.push(format!("{color}{stripe}"));
}
// flush stdout
stdout.flush().ok();
// wait for keypress
for _ in stdin.keys() { break; }
write!(stdout, "{}{}", cursor::Show, clear::All).ok();
stdout.flush().ok();
output
}
/// draws a small stripe flag
pub fn small(colors: Colors) {
// prepare stdout
let mut stdout = io::stdout();
// get constraints
pub fn bg_stripes(colors: Vec<Bg<Rgb>>, width: u16, height: u16) -> Vec<String> {
let width = width as usize;
let height = height as usize;
let count = colors.len();
let width = count * 3;
// build small stripe string
let stripe = BLOCK.repeat(width);
let thresh = height / count;
// print a stripe for all colors
for color in colors {
println!("{color}{stripe}");
let stripe = " ".repeat(width);
let mut output = Vec::new();
let mut index = 0;
for n in 0..height {
if n != 0 && n % thresh == 0 {
index += 1;
if index >= count { break; }
}
let color = colors[index];
output.push(format!("{color}{stripe}"));
}
output
}
impl Flag {
pub fn draw(self, hold: bool) {
let lines = match self {
Flag::Stripes(colors)
=> {
let (width, height);
if hold { (width, height) = terminal_size().unwrap(); }
else {
height = colors.len() as u16;
width = height * 3;
}
fg_stripes(colors, width, height)
},
Flag::Lines(lines)
=> lines
};
draw_lines(lines, hold);
}
// reset our foreground color to play nice and flush stdout
print!("{RESET}");
stdout.flush().ok();
}

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@ -3,9 +3,13 @@
use crate::color::*;
pub static BLOCK: &str = "";
pub enum Flag {
Stripes(Colors),
Lines(Vec<String>)
}
pub fn pride() -> Colors {
pub fn pride() -> Flag {
let red = rgb(0xE50000);
let orange = rgb(0xFF8D00);
let yellow = rgb(0xFFEE00);
@ -13,58 +17,58 @@ pub fn pride() -> Colors {
let blue = rgb(0x004CFF);
let purple = rgb(0x770088);
vec![red, orange, yellow, green, blue, purple]
Flag::Stripes(vec![red, orange, yellow, green, blue, purple])
}
pub fn transgender() -> Colors {
pub fn transgender() -> Flag {
let pink = rgb(0x7ACBF5);
let blue = rgb(0xEAACB8);
vec![pink, blue, WHITE, blue, pink]
Flag::Stripes(vec![pink, blue, WHITE, blue, pink])
}
// everything below here is alphabetical
pub fn agender() -> Colors {
pub fn agender() -> Flag {
let gray = rgb(0xB9B9B9);
let green = rgb(0xB8F483);
vec![BLACK, gray, WHITE, green, WHITE, gray, BLACK]
Flag::Stripes(vec![BLACK, gray, WHITE, green, WHITE, gray, BLACK])
}
pub fn aromantic() -> Colors {
pub fn aromantic() -> Flag {
let green = rgb(0x3BA740);
let lime = rgb(0xA8D47A);
let grey = rgb(0xABABAB);
vec![green, lime, WHITE, grey, BLACK]
Flag::Stripes(vec![green, lime, WHITE, grey, BLACK])
}
pub fn asexual() -> Colors {
pub fn asexual() -> Flag {
let grey = rgb(0xA4A4A4);
let purple = rgb(0x810081);
vec![BLACK, grey, WHITE, purple]
Flag::Stripes(vec![BLACK, grey, WHITE, purple])
}
pub fn bigender() -> Colors {
pub fn bigender() -> Flag {
let pink = rgb(0xE676A6);
let yellow = rgb(0xF9F04C);
let purple = rgb(0xAB6BBB);
let blue = rgb(0x6D96DC);
vec![pink, yellow, WHITE, purple, blue]
Flag::Stripes(vec![pink, yellow, WHITE, purple, blue])
}
pub fn bisexual() -> Colors {
pub fn bisexual() -> Flag {
let magenta = rgb(0xC42A6F);
let purple = rgb(0x915392);
let blue = rgb(0x1437A2);
vec![magenta, magenta, purple, blue, blue]
Flag::Stripes(vec![magenta, magenta, purple, blue, blue])
}
pub fn gay() -> Colors {
pub fn gay() -> Flag {
let green1 = rgb(0x00906D);
let green2 = rgb(0x00D1A7);
let green3 = rgb(0x7EEBC1);
@ -72,68 +76,68 @@ pub fn gay() -> Colors {
let blue2 = rgb(0x5543D3);
let blue3 = rgb(0x461280);
vec![green1, green2, green3, WHITE, blue1, blue2, blue3]
Flag::Stripes(vec![green1, green2, green3, WHITE, blue1, blue2, blue3])
}
pub fn genderfluid() -> Colors {
pub fn genderfluid() -> Flag {
let pink = rgb(0xFF75A2);
let violet = rgb(0xBE18D6);
let blue = rgb(0x333EBD);
vec![pink, WHITE, violet, BLACK, blue]
Flag::Stripes(vec![pink, WHITE, violet, BLACK, blue])
}
pub fn gender_nonconforming() -> Colors {
pub fn gender_nonconforming() -> Flag {
let purple = rgb(0x50284D);
let magenta = rgb(0x96467B);
let blue = rgb(0x5C96F7);
vec![purple, purple, magenta, blue, WHITE, blue, magenta, purple, purple]
Flag::Stripes(vec![purple, purple, magenta, blue, WHITE, blue, magenta, purple, purple])
}
pub fn genderqueer() -> Colors {
pub fn genderqueer() -> Flag {
let purple = rgb(0xB899DF);
let green = rgb(0x6B8E3B);
vec![purple, WHITE, green]
Flag::Stripes(vec![purple, WHITE, green])
}
pub fn gendervoid() -> Colors {
pub fn gendervoid() -> Flag {
let navy = rgb(0x08114A);
let gray = rgb(0x4A484B);
vec![navy, gray, BLACK, gray, navy]
Flag::Stripes(vec![navy, gray, BLACK, gray, navy])
}
pub fn lesbian() -> Colors {
pub fn lesbian() -> Flag {
let red = rgb(0xD62800);
let orange = rgb(0xFF9B56);
let pink = rgb(0xD462A6);
let magenta = rgb(0xA40062);
vec![red, orange, WHITE, pink, magenta]
Flag::Stripes(vec![red, orange, WHITE, pink, magenta])
}
pub fn multigender() -> Colors {
pub fn multigender() -> Flag {
let blue = rgb(0x3F47CC);
let ltblue = rgb(0x01A4E9);
let orange = rgb(0xFB7F27);
vec![blue, ltblue, orange, ltblue, blue]
Flag::Stripes(vec![blue, ltblue, orange, ltblue, blue])
}
pub fn nonbinary() -> Colors {
pub fn nonbinary() -> Flag {
let yellow = rgb(0xFFF433);
let purple = rgb(0x9B59D0);
vec![yellow, WHITE, purple, BLACK]
Flag::Stripes(vec![yellow, WHITE, purple, BLACK])
}
pub fn pansexual() -> Colors {
pub fn pansexual() -> Flag {
let magenta = rgb(0xFF1B8D);
let yellow = rgb(0xFFDA00);
let cyan = rgb(0x1BB3FF);
vec![magenta, yellow, cyan]
Flag::Stripes(vec![magenta, yellow, cyan])
}

View file

@ -29,6 +29,7 @@ pub fn list_text() {
flag list:
agender agender pride flag
aro, aromantic aromantic pride flag
aroace aromantic-asexual pride flag
ace, asexual asexual pride flag
bigender bigender pride flag
bi, bisexual bisexual pride flag
@ -42,6 +43,7 @@ flag list:
nb, nonbinary nonbinary pride flag
pan, pansexual pansexual pride flag
pride, rainbow six-color rainbow flag
progress progress arrow rainbow flag
trans, transgender transgender pride flag");
}
@ -58,7 +60,8 @@ variants:
8-color Gilbert Baker's original 1978 flag with 8 stripes
gilbert-baker
sex-and-magic
philadelphia The 2017 Philadelphia Pride flag with black and brown stripes");
philadelphia The 2017 Philadelphia Pride flag with black and brown stripes
progress The 2018 Progess rainbow pride flag designed by Daniel Quasar");
},
"transgender" | "trans"
@ -78,7 +81,9 @@ names:
variants:
7-color 7-stripe flag, also designed in 2018 by Emily Gwen");
}
},
"progress"
=> { println!("Daniel Quasar's 2018 Progress rainbow pride flag.\n\nnames:\n 'progress'"); }
_
=> help_text()

View file

@ -3,12 +3,17 @@ use std::process::exit;
use pico_args::Arguments;
mod color;
mod complex;
mod draw;
mod flag;
<<<<<<< HEAD
mod help;
=======
mod util;
>>>>>>> main
mod variant;
use crate::color::Colors;
use crate::flag::Flag;
static VERSION: &str = env!("CARGO_PKG_VERSION");
@ -42,7 +47,7 @@ fn main() {
let subcommand = args.subcommand().unwrap();
// get color vec from matched flag
let colors: Colors = match subcommand.as_deref() {
let flag: Flag = match subcommand.as_deref() {
Some("pride" | "rainbow")
| None
=> {
@ -52,6 +57,8 @@ fn main() {
=> variant::gilbert_baker(),
Some("philadelphia")
=> variant::philadelphia(),
Some("progress")
=> complex::progress(small),
_
=> flag::pride()
}
@ -70,12 +77,24 @@ fn main() {
Some("asexual" | "ace")
=> flag::asexual(),
Some("aroace" | "aromantic-asexual")
=> complex::aroace(small),
Some("bigender")
=> flag::bigender(),
Some("bisexual" | "bi")
=> flag::bisexual(),
Some("demiromantic")
=> complex::demiromantic(small),
Some("demisexual")
=> complex::demisexual(small),
// Some("disability")
// => complex::disability();
Some("gay" | "mlm")
=> flag::gay(),
@ -91,6 +110,9 @@ fn main() {
Some("gendervoid")
=> flag::gendervoid(),
Some("intersex")
=> complex::intersex(),
Some("lesbian")
=> {
let variant = args.subcommand().unwrap_or(None);
@ -111,11 +133,16 @@ fn main() {
Some("pansexual" | "pan")
=> flag::pansexual(),
_ => { help::help_text(); exit(1) } // (or die)
// Some("poly" | "polyamorous" | "polyamory")
// => complex::polyamorous(),
Some("progress")
=> flag::progress(),
_ => { help_text(); exit(1) }
};
if small { draw::small(colors); }
else { draw::full(colors); }
flag.draw(!small);
}

52
src/util.rs Normal file
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@ -0,0 +1,52 @@
/// gets the substring of displayed characters of an ANSI formatted string
pub fn ansi_substr(source: &str, start: usize, end: usize) -> String {
// init output string
let mut output = String::new();
// trackers
let mut escaped = false;
let mut index = 0;
for character in source.chars() {
// escape character delimits start and end of ansi sequences
if character == '\u{1B}' {
escaped = true;
output.push(character);
}
// push ALL escaped characters
if escaped {
output.push(character);
// and unset esc on m
if character == 'm' { escaped = false; }
}
// non-escaped characters must obey bounds
else {
if index < start {
index += 1;
continue;
}
output.push(character);
index += 1;
if index > end { break; }
}
}
output
}
/// gets the number of displayed characters in an ANSI formatted string
pub fn ansi_len(source: &str) -> usize {
let mut output = 0;
let mut escaped = false;
for character in source.chars() {
if character == '\u{1B}' { escaped = true; }
if !escaped { output += 1; }
else if character == 'm' { escaped = false; }
}
output
}

View file

@ -3,10 +3,10 @@
use crate::{
color::*,
flag
flag::{ self, Flag }
};
pub fn gilbert_baker() -> Colors {
pub fn gilbert_baker() -> Flag {
let pink = rgb(0xFF69B4); // sex
let red = rgb(0xFF0000); // life
let orange = rgb(0xFF8F00); // healing
@ -16,20 +16,26 @@ pub fn gilbert_baker() -> Colors {
let indigo = rgb(0x3E0099); // serenity
let purple = rgb(0x8F008F); // spirit
vec![pink, red, orange, yellow, green, cyan, indigo, purple]
Flag::Stripes(vec![pink, red, orange, yellow, green, cyan, indigo, purple])
}
pub fn philadelphia() -> Colors {
pub fn philadelphia() -> Flag {
let brown = rgb(0x784F17);
let mut output = flag::pride();
output.insert(0, BLACK);
output.insert(1, brown);
let base = flag::pride();
let mut colors = match base {
Flag::Stripes(inner)
=> inner,
_
=> { panic!("impossible enum variant"); }
};
colors.insert(0, BLACK);
colors.insert(1, brown);
output
Flag::Stripes(colors)
}
pub fn lesbian_7() -> Colors {
pub fn lesbian_7() -> Flag {
let orange1 = rgb(0xD52D00); // gender non-conformity
let orange2 = rgb(0xEF7627); // independence
let orange3 = rgb(0xFF9A56); // community
@ -38,6 +44,6 @@ pub fn lesbian_7() -> Colors {
let pink2 = rgb(0xB55690); // love and sex
let pink3 = rgb(0xA30262); // femininity
vec![orange1, orange2, orange3, WHITE, pink1, pink2, pink3]
Flag::Stripes(vec![orange1, orange2, orange3, WHITE, pink1, pink2, pink3])
}