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ed51c4b342
These are simple opinionated methods for creating a terminal that is
useful to use in most apps. The new init method creates a crossterm
backend writing to stdout, enables raw mode, enters the alternate
screen, and sets a panic handler that restores the terminal on panic.
A minimal hello world now looks a bit like:
```rust
use ratatui::{
crossterm::event::{self, Event},
text::Text,
Frame,
};
fn main() {
let mut terminal = ratatui::init();
loop {
terminal
.draw(|frame: &mut Frame| frame.render_widget(Text::raw("Hello World!"), frame.area()))
.expect("Failed to draw");
if matches!(event::read().expect("failed to read event"), Event::Key(_)) {
break;
}
}
ratatui::restore();
}
```
A type alias `DefaultTerminal` is added to represent this terminal
type and to simplify any cases where applications need to pass this
terminal around. It is equivalent to:
`Terminal<CrosstermBackend<Stdout>>`
We also added `ratatui::try_init()` and `try_restore()`, for situations
where you might want to handle initialization errors yourself instead
of letting the panic handler fire and cleanup. Simple Apps should
prefer the `init` and `restore` functions over these functions.
Corresponding functions to allow passing a `TerminalOptions` with
a `Viewport` (e.g. inline, fixed) are also available
(`init_with_options`,
and `try_init_with_options`).
The existing code to create a backend and terminal will remain and
is not deprecated by this approach. This just provides a simple one
line initialization using the common options.
---------
Co-authored-by: Orhun Parmaksız <orhunparmaksiz@gmail.com>
207 lines
6.2 KiB
Rust
207 lines
6.2 KiB
Rust
//! # [Ratatui] Layout example
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//!
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//! The latest version of this example is available in the [examples] folder in the repository.
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//!
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//! Please note that the examples are designed to be run against the `main` branch of the Github
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//! repository. This means that you may not be able to compile with the latest release version on
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//! crates.io, or the one that you have installed locally.
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//!
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//! See the [examples readme] for more information on finding examples that match the version of the
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//! library you are using.
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//!
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//! [Ratatui]: https://github.com/ratatui/ratatui
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//! [examples]: https://github.com/ratatui/ratatui/blob/main/examples
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//! [examples readme]: https://github.com/ratatui/ratatui/blob/main/examples/README.md
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use itertools::Itertools;
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use ratatui::{
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crossterm::event::{self, Event, KeyCode, KeyEventKind},
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layout::{
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Constraint::{self, Length, Max, Min, Percentage, Ratio},
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Layout, Rect,
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},
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style::{Color, Style, Stylize},
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text::Line,
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widgets::{Block, Paragraph},
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DefaultTerminal, Frame,
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};
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fn main() -> color_eyre::Result<()> {
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color_eyre::install()?;
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let terminal = ratatui::init();
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let app_result = run(terminal);
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ratatui::restore();
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app_result
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}
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fn run(mut terminal: DefaultTerminal) -> color_eyre::Result<()> {
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loop {
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terminal.draw(draw)?;
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if let Event::Key(key) = event::read()? {
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if key.kind == KeyEventKind::Press && key.code == KeyCode::Char('q') {
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break Ok(());
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}
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}
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}
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}
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#[allow(clippy::too_many_lines)]
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fn draw(frame: &mut Frame) {
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let vertical = Layout::vertical([
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Length(4), // text
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Length(50), // examples
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Min(0), // fills remaining space
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]);
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let [text_area, examples_area, _] = vertical.areas(frame.area());
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// title
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frame.render_widget(
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Paragraph::new(vec![
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Line::from("Horizontal Layout Example. Press q to quit".dark_gray()).centered(),
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Line::from("Each line has 2 constraints, plus Min(0) to fill the remaining space."),
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Line::from("E.g. the second line of the Len/Min box is [Length(2), Min(2), Min(0)]"),
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Line::from("Note: constraint labels that don't fit are truncated"),
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]),
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text_area,
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);
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let example_rows = Layout::vertical([
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Length(9),
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Length(9),
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Length(9),
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Length(9),
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Length(9),
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Min(0), // fills remaining space
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])
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.split(examples_area);
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let example_areas = example_rows
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.iter()
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.flat_map(|area| {
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Layout::horizontal([
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Length(14),
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Length(14),
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Length(14),
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Length(14),
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Length(14),
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Min(0), // fills remaining space
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])
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.split(*area)
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.iter()
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.copied()
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.take(5) // ignore Min(0)
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.collect_vec()
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})
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.collect_vec();
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// the examples are a cartesian product of the following constraints
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// e.g. Len/Len, Len/Min, Len/Max, Len/Perc, Len/Ratio, Min/Len, Min/Min, ...
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let examples = [
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(
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"Len",
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vec![
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Length(0),
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Length(2),
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Length(3),
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Length(6),
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Length(10),
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Length(15),
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],
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),
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(
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"Min",
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vec![Min(0), Min(2), Min(3), Min(6), Min(10), Min(15)],
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),
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(
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"Max",
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vec![Max(0), Max(2), Max(3), Max(6), Max(10), Max(15)],
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),
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(
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"Perc",
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vec![
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Percentage(0),
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Percentage(25),
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Percentage(50),
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Percentage(75),
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Percentage(100),
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Percentage(150),
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],
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),
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(
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"Ratio",
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vec![
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Ratio(0, 4),
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Ratio(1, 4),
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Ratio(2, 4),
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Ratio(3, 4),
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Ratio(4, 4),
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Ratio(6, 4),
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],
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),
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];
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for (i, (a, b)) in examples
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.iter()
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.cartesian_product(examples.iter())
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.enumerate()
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{
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let (name_a, examples_a) = a;
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let (name_b, examples_b) = b;
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let constraints = examples_a
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.iter()
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.copied()
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.zip(examples_b.iter().copied())
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.collect_vec();
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render_example_combination(
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frame,
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example_areas[i],
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&format!("{name_a}/{name_b}"),
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constraints,
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);
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}
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}
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/// Renders a single example box
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fn render_example_combination(
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frame: &mut Frame,
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area: Rect,
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title: &str,
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constraints: Vec<(Constraint, Constraint)>,
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) {
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let block = Block::bordered()
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.title(title.gray())
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.style(Style::reset())
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.border_style(Style::default().fg(Color::DarkGray));
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let inner = block.inner(area);
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frame.render_widget(block, area);
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let layout = Layout::vertical(vec![Length(1); constraints.len() + 1]).split(inner);
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for (i, (a, b)) in constraints.into_iter().enumerate() {
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render_single_example(frame, layout[i], vec![a, b, Min(0)]);
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}
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// This is to make it easy to visually see the alignment of the examples
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// with the constraints.
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frame.render_widget(Paragraph::new("123456789012"), layout[6]);
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}
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/// Renders a single example line
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fn render_single_example(frame: &mut Frame, area: Rect, constraints: Vec<Constraint>) {
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let red = Paragraph::new(constraint_label(constraints[0])).on_red();
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let blue = Paragraph::new(constraint_label(constraints[1])).on_blue();
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let green = Paragraph::new("·".repeat(12)).on_green();
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let horizontal = Layout::horizontal(constraints);
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let [r, b, g] = horizontal.areas(area);
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frame.render_widget(red, r);
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frame.render_widget(blue, b);
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frame.render_widget(green, g);
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}
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fn constraint_label(constraint: Constraint) -> String {
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match constraint {
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Constraint::Ratio(a, b) => format!("{a}:{b}"),
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Constraint::Length(n)
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| Constraint::Min(n)
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| Constraint::Max(n)
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| Constraint::Percentage(n)
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| Constraint::Fill(n) => format!("{n}"),
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}
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}
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