tui-rs/src/widgets/barchart.rs
2020-04-14 19:25:49 +02:00

211 lines
6.2 KiB
Rust

use crate::{
buffer::Buffer,
layout::Rect,
style::Style,
symbols,
widgets::{Block, Widget},
};
use std::cmp::{max, min};
use unicode_width::UnicodeWidthStr;
/// Display multiple bars in a single widgets
///
/// # Examples
///
/// ```
/// # use tui::widgets::{Block, Borders, BarChart};
/// # use tui::style::{Style, Color, Modifier};
/// BarChart::default()
/// .block(Block::default().title("BarChart").borders(Borders::ALL))
/// .bar_width(3)
/// .bar_gap(1)
/// .style(Style::default().fg(Color::Yellow).bg(Color::Red))
/// .value_style(Style::default().fg(Color::Red).modifier(Modifier::BOLD))
/// .label_style(Style::default().fg(Color::White))
/// .data(&[("B0", 0), ("B1", 2), ("B2", 4), ("B3", 3)])
/// .max(4);
/// ```
#[derive(Debug, Clone)]
pub struct BarChart<'a> {
/// Block to wrap the widget in
block: Option<Block<'a>>,
/// The width of each bar
bar_width: u16,
/// The gap between each bar
bar_gap: u16,
/// Set of symbols used to display the data
bar_set: symbols::bar::Set,
/// Style of the values printed at the bottom of each bar
value_style: Style,
/// Style of the labels printed under each bar
label_style: Style,
/// Style for the widget
style: Style,
/// Slice of (label, value) pair to plot on the chart
data: &'a [(&'a str, u64)],
/// Value necessary for a bar to reach the maximum height (if no value is specified,
/// the maximum value in the data is taken as reference)
max: Option<u64>,
/// Values to display on the bar (computed when the data is passed to the widget)
values: Vec<String>,
}
impl<'a> Default for BarChart<'a> {
fn default() -> BarChart<'a> {
BarChart {
block: None,
max: None,
data: &[],
values: Vec::new(),
bar_width: 1,
bar_gap: 1,
bar_set: symbols::bar::NINE_LEVELS,
value_style: Default::default(),
label_style: Default::default(),
style: Default::default(),
}
}
}
impl<'a> BarChart<'a> {
pub fn data(mut self, data: &'a [(&'a str, u64)]) -> BarChart<'a> {
self.data = data;
self.values = Vec::with_capacity(self.data.len());
for &(_, v) in self.data {
self.values.push(format!("{}", v));
}
self
}
pub fn block(mut self, block: Block<'a>) -> BarChart<'a> {
self.block = Some(block);
self
}
pub fn max(mut self, max: u64) -> BarChart<'a> {
self.max = Some(max);
self
}
pub fn bar_width(mut self, width: u16) -> BarChart<'a> {
self.bar_width = width;
self
}
pub fn bar_gap(mut self, gap: u16) -> BarChart<'a> {
self.bar_gap = gap;
self
}
pub fn bar_set(mut self, bar_set: symbols::bar::Set) -> BarChart<'a> {
self.bar_set = bar_set;
self
}
pub fn value_style(mut self, style: Style) -> BarChart<'a> {
self.value_style = style;
self
}
pub fn label_style(mut self, style: Style) -> BarChart<'a> {
self.label_style = style;
self
}
pub fn style(mut self, style: Style) -> BarChart<'a> {
self.style = style;
self
}
}
impl<'a> Widget for BarChart<'a> {
fn render(mut self, area: Rect, buf: &mut Buffer) {
let chart_area = match self.block {
Some(ref mut b) => {
b.render(area, buf);
b.inner(area)
}
None => area,
};
if chart_area.height < 2 {
return;
}
buf.set_background(chart_area, self.style.bg);
let max = self
.max
.unwrap_or_else(|| self.data.iter().fold(0, |acc, &(_, v)| max(v, acc)));
let max_index = min(
(chart_area.width / (self.bar_width + self.bar_gap)) as usize,
self.data.len(),
);
let mut data = self
.data
.iter()
.take(max_index)
.map(|&(l, v)| {
(
l,
v * u64::from(chart_area.height) * 8 / std::cmp::max(max, 1),
)
})
.collect::<Vec<(&str, u64)>>();
for j in (0..chart_area.height - 1).rev() {
for (i, d) in data.iter_mut().enumerate() {
let symbol = match d.1 {
0 => self.bar_set.empty,
1 => self.bar_set.one_eighth,
2 => self.bar_set.one_quarter,
3 => self.bar_set.three_eighths,
4 => self.bar_set.half,
5 => self.bar_set.five_eighths,
6 => self.bar_set.three_quarters,
7 => self.bar_set.seven_eighths,
_ => self.bar_set.full,
};
for x in 0..self.bar_width {
buf.get_mut(
chart_area.left() + i as u16 * (self.bar_width + self.bar_gap) + x,
chart_area.top() + j,
)
.set_symbol(symbol)
.set_style(self.style);
}
if d.1 > 8 {
d.1 -= 8;
} else {
d.1 = 0;
}
}
}
for (i, &(label, value)) in self.data.iter().take(max_index).enumerate() {
if value != 0 {
let value_label = &self.values[i];
let width = value_label.width() as u16;
if width < self.bar_width {
buf.set_string(
chart_area.left()
+ i as u16 * (self.bar_width + self.bar_gap)
+ (self.bar_width - width) / 2,
chart_area.bottom() - 2,
value_label,
self.value_style,
);
}
}
buf.set_stringn(
chart_area.left() + i as u16 * (self.bar_width + self.bar_gap),
chart_area.bottom() - 1,
label,
self.bar_width as usize,
self.label_style,
);
}
}
}