use crate::{
draw_target::DrawTarget,
pixelcolor::PixelColor,
primitives::{
line::{thick_points::ThickPoints, Line, StrokeOffset},
styled::{StyledDimensions, StyledDrawable, StyledPixels},
PrimitiveStyle, Rectangle,
},
Pixel,
};
use az::SaturatingAs;
#[derive(Clone, Debug)]
#[cfg_attr(feature = "defmt", derive(::defmt::Format))]
pub struct StyledPixelsIterator<C> {
stroke_color: Option<C>,
line_iter: ThickPoints,
}
impl<C: PixelColor> StyledPixelsIterator<C> {
pub(in crate::primitives::line) fn new(primitive: &Line, style: &PrimitiveStyle<C>) -> Self {
let stroke_color = style.effective_stroke_color();
let stroke_width = style.stroke_width.saturating_as();
Self {
stroke_color,
line_iter: ThickPoints::new(primitive, stroke_width),
}
}
}
impl<C: PixelColor> Iterator for StyledPixelsIterator<C> {
type Item = Pixel<C>;
fn next(&mut self) -> Option<Self::Item> {
let stroke_color = self.stroke_color?;
self.line_iter
.next()
.map(|point| Pixel(point, stroke_color))
}
}
impl<C: PixelColor> StyledPixels<PrimitiveStyle<C>> for Line {
type Iter = StyledPixelsIterator<C>;
fn pixels(&self, style: &PrimitiveStyle<C>) -> Self::Iter {
StyledPixelsIterator::new(self, style)
}
}
impl<C: PixelColor> StyledDrawable<PrimitiveStyle<C>> for Line {
type Color = C;
type Output = ();
fn draw_styled<D>(
&self,
style: &PrimitiveStyle<C>,
target: &mut D,
) -> Result<Self::Output, D::Error>
where
D: DrawTarget<Color = C>,
{
target.draw_iter(StyledPixelsIterator::new(self, style))
}
}
impl<C: PixelColor> StyledDimensions<PrimitiveStyle<C>> for Line {
fn styled_bounding_box(&self, style: &PrimitiveStyle<C>) -> Rectangle {
let (l, r) = self.extents(style.stroke_width, StrokeOffset::None);
let min = l
.start
.component_min(l.end)
.component_min(r.start)
.component_min(r.end);
let max = l
.start
.component_max(l.end)
.component_max(r.start)
.component_max(r.end);
Rectangle::with_corners(min, max)
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::{
geometry::{Dimensions, Point},
mock_display::MockDisplay,
pixelcolor::{Rgb888, RgbColor},
primitives::{Primitive, PrimitiveStyleBuilder},
Drawable,
};
#[test]
fn bounding_box() {
let lines = [
(
Line::new(Point::new(10, 20), Point::new(10, 50)),
"vertical",
),
(
Line::new(Point::new(20, 20), Point::new(50, 20)),
"horizontal",
),
(
Line::new(Point::new(20, 20), Point::new(55, 55)),
"diagonal",
),
(Line::new(Point::new(20, 20), Point::new(55, 55)), "thin"),
(
Line::new(Point::new(40, 40), Point::new(13, 14)),
"random angle 1",
),
(
Line::new(Point::new(30, 30), Point::new(12, 53)),
"random angle 2",
),
];
for (line, name) in lines.iter() {
for thickness in 1..15 {
let style = PrimitiveStyle::with_stroke(Rgb888::RED, thickness);
let styled = line.into_styled(style);
let mut display = MockDisplay::new();
styled.draw(&mut display).unwrap();
assert_eq!(
display.affected_area(),
styled.bounding_box(),
"{}, {} px",
name,
thickness
);
}
}
}
#[test]
fn bounding_box_is_independent_of_colors() {
let line = Line::new(Point::new(5, 5), Point::new(11, 14));
let transparent_line = line.into_styled(
PrimitiveStyleBuilder::<Rgb888>::new()
.stroke_width(10)
.build(),
);
let stroked_line = line.into_styled(PrimitiveStyle::with_stroke(Rgb888::RED, 10));
assert_eq!(transparent_line.bounding_box(), stroked_line.bounding_box(),);
}
}