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ratatui/examples/layout.rs
Josh McKinney 082cbcbc50
feat(frame)!: Remove generic Backend parameter (#530) 
This change simplifys UI code that uses the Frame type. E.g.:

```rust
fn draw<B: Backend>(frame: &mut Frame<B>) {
    // ...
}
```

Frame was generic over Backend because it stored a reference to the
terminal in the field. Instead it now directly stores the viewport area
and current buffer. These are provided at creation time and are valid
for the duration of the frame.

BREAKING CHANGE: Frame is no longer generic over Backend. Code that
accepted `Frame<Backend>` will now need to accept `Frame`. To migrate
existing code, remove any generic parameters from code that uses an
instance of a Frame. E.g. the above code becomes:

```rust
fn draw(frame: &mut Frame) {
    // ...
}
```
2023-09-25 22:30:36 -07:00

219 lines
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Rust
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use std::{error::Error, io};
use crossterm::{
event::{self, DisableMouseCapture, EnableMouseCapture, Event, KeyCode},
execute,
terminal::{disable_raw_mode, enable_raw_mode, EnterAlternateScreen, LeaveAlternateScreen},
};
use itertools::Itertools;
use ratatui::{layout::Constraint::*, prelude::*, widgets::*};
fn main() -> Result<(), Box<dyn Error>> {
// setup terminal
enable_raw_mode()?;
let mut stdout = io::stdout();
execute!(stdout, EnterAlternateScreen, EnableMouseCapture)?;
let backend = CrosstermBackend::new(stdout);
let mut terminal = Terminal::new(backend)?;
// create app and run it
let res = run_app(&mut terminal);
// restore terminal
disable_raw_mode()?;
execute!(
terminal.backend_mut(),
LeaveAlternateScreen,
DisableMouseCapture
)?;
terminal.show_cursor()?;
if let Err(err) = res {
println!("{err:?}");
}
Ok(())
}
fn run_app<B: Backend>(terminal: &mut Terminal<B>) -> io::Result<()> {
loop {
terminal.draw(ui)?;
if let Event::Key(key) = event::read()? {
if let KeyCode::Char('q') = key.code {
return Ok(());
}
}
}
}
fn ui(frame: &mut Frame) {
let main_layout = Layout::default()
.direction(Direction::Vertical)
.constraints(vec![
Length(4), // text
Length(50), // examples
Min(0), // fills remaining space
])
.split(frame.size());
// title
frame.render_widget(
Paragraph::new(vec![
Line::from("Horizontal Layout Example. Press q to quit".dark_gray())
.alignment(Alignment::Center),
Line::from("Each line has 2 constraints, plus Min(0) to fill the remaining space."),
Line::from("E.g. the second line of the Len/Min box is [Length(2), Min(2), Min(0)]"),
Line::from("Note: constraint labels that don't fit are truncated"),
]),
main_layout[0],
);
let example_rows = Layout::default()
.direction(Direction::Vertical)
.constraints(vec![
Length(9),
Length(9),
Length(9),
Length(9),
Length(9),
Min(0), // fills remaining space
])
.split(main_layout[1]);
let example_areas = example_rows
.iter()
.flat_map(|area| {
Layout::default()
.direction(Direction::Horizontal)
.constraints(vec![
Length(14),
Length(14),
Length(14),
Length(14),
Length(14),
Min(0), // fills remaining space
])
.split(*area)
.iter()
.copied()
.take(5) // ignore Min(0)
.collect_vec()
})
.collect_vec();
// the examples are a cartesian product of the following constraints
// e.g. Len/Len, Len/Min, Len/Max, Len/Perc, Len/Ratio, Min/Len, Min/Min, ...
let examples = [
(
"Len",
vec![
Length(0),
Length(2),
Length(3),
Length(6),
Length(10),
Length(15),
],
),
(
"Min",
vec![Min(0), Min(2), Min(3), Min(6), Min(10), Min(15)],
),
(
"Max",
vec![Max(0), Max(2), Max(3), Max(6), Max(10), Max(15)],
),
(
"Perc",
vec![
Percentage(0),
Percentage(25),
Percentage(50),
Percentage(75),
Percentage(100),
Percentage(150),
],
),
(
"Ratio",
vec![
Ratio(0, 4),
Ratio(1, 4),
Ratio(2, 4),
Ratio(3, 4),
Ratio(4, 4),
Ratio(6, 4),
],
),
];
for (i, (a, b)) in examples
.iter()
.cartesian_product(examples.iter())
.enumerate()
{
let (name_a, examples_a) = a;
let (name_b, examples_b) = b;
let constraints = examples_a
.iter()
.copied()
.zip(examples_b.iter().copied())
.collect_vec();
render_example_combination(
frame,
example_areas[i],
&format!("{name_a}/{name_b}"),
constraints,
);
}
}
/// Renders a single example box
fn render_example_combination(
frame: &mut Frame,
area: Rect,
title: &str,
constraints: Vec<(Constraint, Constraint)>,
) {
let block = Block::default()
.title(title.gray())
.style(Style::reset())
.borders(Borders::ALL)
.border_style(Style::default().fg(Color::DarkGray));
let inner = block.inner(area);
frame.render_widget(block, area);
let layout = Layout::default()
.direction(Direction::Vertical)
.constraints(vec![Length(1); constraints.len() + 1])
.split(inner);
for (i, (a, b)) in constraints.iter().enumerate() {
render_single_example(frame, layout[i], vec![*a, *b, Min(0)]);
}
// This is to make it easy to visually see the alignment of the examples
// with the constraints.
frame.render_widget(Paragraph::new("123456789012"), layout[6]);
}
/// Renders a single example line
fn render_single_example(frame: &mut Frame, area: Rect, constraints: Vec<Constraint>) {
let red = Paragraph::new(constraint_label(constraints[0])).on_red();
let blue = Paragraph::new(constraint_label(constraints[1])).on_blue();
let green = Paragraph::new("·".repeat(12)).on_green();
let layout = Layout::default()
.direction(Direction::Horizontal)
.constraints(constraints)
.split(area);
frame.render_widget(red, layout[0]);
frame.render_widget(blue, layout[1]);
frame.render_widget(green, layout[2]);
}
fn constraint_label(constraint: Constraint) -> String {
match constraint {
Length(n) => format!("{n}"),
Min(n) => format!("{n}"),
Max(n) => format!("{n}"),
Percentage(n) => format!("{n}"),
Ratio(a, b) => format!("{a}:{b}"),
}
}
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