plotters_backend/rasterizer/
line.rsuse crate::{BackendCoord, BackendStyle, DrawingBackend, DrawingErrorKind};
pub fn draw_line<DB: DrawingBackend, S: BackendStyle>(
back: &mut DB,
mut from: BackendCoord,
mut to: BackendCoord,
style: &S,
) -> Result<(), DrawingErrorKind<DB::ErrorType>> {
if style.color().alpha == 0.0 || style.stroke_width() == 0 {
return Ok(());
}
if style.stroke_width() != 1 {
let v = (i64::from(to.0 - from.0), i64::from(to.1 - from.1));
let l = ((v.0 * v.0 + v.1 * v.1) as f64).sqrt();
if l < 1e-5 {
return Ok(());
}
let v = (v.0 as f64 / l, v.1 as f64 / l);
let r = f64::from(style.stroke_width()) / 2.0;
let mut trans = [(v.1 * r, -v.0 * r), (-v.1 * r, v.0 * r)];
let mut vertices = vec![];
for point in [from, to].iter() {
for t in trans.iter() {
vertices.push((
(f64::from(point.0) + t.0) as i32,
(f64::from(point.1) + t.1) as i32,
))
}
trans.swap(0, 1);
}
return back.fill_polygon(vertices, style);
}
if from.0 == to.0 {
if from.1 > to.1 {
std::mem::swap(&mut from, &mut to);
}
for y in from.1..=to.1 {
check_result!(back.draw_pixel((from.0, y), style.color()));
}
return Ok(());
}
if from.1 == to.1 {
if from.0 > to.0 {
std::mem::swap(&mut from, &mut to);
}
for x in from.0..=to.0 {
check_result!(back.draw_pixel((x, from.1), style.color()));
}
return Ok(());
}
let steep = (from.0 - to.0).abs() < (from.1 - to.1).abs();
if steep {
from = (from.1, from.0);
to = (to.1, to.0);
}
let (from, to) = if from.0 > to.0 {
(to, from)
} else {
(from, to)
};
let mut size_limit = back.get_size();
if steep {
size_limit = (size_limit.1, size_limit.0);
}
let grad = f64::from(to.1 - from.1) / f64::from(to.0 - from.0);
let mut put_pixel = |(x, y): BackendCoord, b: f64| {
if steep {
back.draw_pixel((y, x), style.color().mix(b))
} else {
back.draw_pixel((x, y), style.color().mix(b))
}
};
let y_step_limit =
(f64::from(to.1.min(size_limit.1 as i32 - 1).max(0) - from.1) / grad).floor() as i32;
let batch_start = (f64::from(from.1.min(size_limit.1 as i32 - 2).max(0) - from.1) / grad)
.abs()
.ceil() as i32
+ from.0;
let batch_limit =
to.0.min(size_limit.0 as i32 - 2)
.min(from.0 + y_step_limit - 1);
let mut y = f64::from(from.1) + f64::from(batch_start - from.0) * grad;
for x in batch_start..=batch_limit {
check_result!(put_pixel((x, y as i32), 1.0 + y.floor() - y));
check_result!(put_pixel((x, y as i32 + 1), y - y.floor()));
y += grad;
}
if to.0 > batch_limit && y < f64::from(to.1) {
let x = batch_limit + 1;
if 1.0 + y.floor() - y > 1e-5 {
check_result!(put_pixel((x, y as i32), 1.0 + y.floor() - y));
}
if y - y.floor() > 1e-5 && y + 1.0 < f64::from(to.1) {
check_result!(put_pixel((x, y as i32 + 1), y - y.floor()));
}
}
Ok(())
}