dataviz\figure\display/
hoverpiechart.rsuse ab_glyph::FontRef;
use image::ImageBuffer;
use imageproc::drawing::{draw_line_segment_mut, draw_text_mut, text_size};
use crate::figure::{canvas::pixelcanvas::PixelCanvas, figuretypes::piechart::PieChart};
use super::hover::Hover;
impl Hover for PieChart {
fn find_closest_point(
&self,
mouse_x: u32,
mouse_y: u32,
canvas: &PixelCanvas,
) -> Option<((f64, f64), f64)> {
let center_x = canvas.width as f64 / 2.0;
let center_y = canvas.height as f64 / 2.0;
let total_value: f64 = self.datasets.iter().map(|(_, value, _)| *value).sum();
let mut start_angle = 0.0;
let dx = mouse_x as f64 - center_x;
let dy = mouse_y as f64 - center_y;
let mut angle = dy.atan2(dx);
if angle < 0.0 {
angle += 2.0 * std::f64::consts::PI;
}
for (_, value, _) in &self.datasets {
let sweep_angle = (value / total_value) * 2.0 * std::f64::consts::PI;
let mid_angle = start_angle + sweep_angle / 2.0;
if angle >= start_angle && angle < start_angle + sweep_angle {
let x = center_x + mid_angle.cos() * (canvas.width as f64 / 4.0);
let y = center_y + mid_angle.sin() * (canvas.height as f64 / 4.0);
return Some(((x, y), *value));
}
start_angle += sweep_angle;
}
None
}
fn to_canvas_coordinates(&self, x: f64, y: f64, _canvas: &PixelCanvas) -> (u32, u32) {
(x as u32, y as u32)
}
fn handle_hover(&self, mouse_x: u32, mouse_y: u32, canvas: &PixelCanvas) -> Option<Vec<u32>> {
let mut img =
ImageBuffer::from_raw(canvas.width, canvas.height, canvas.buffer.clone()).unwrap();
if let Some(((x, y), value)) = self.find_closest_point(mouse_x, mouse_y, canvas) {
draw_line_segment_mut(
&mut img,
(x as f32, y as f32),
(mouse_x as f32, mouse_y as f32),
image::Rgb([255, 0, 0]),
);
let font = self.get_font(self.config.font_label.as_bytes());
let scale = ab_glyph::PxScale { x: 12.0, y: 12.0 };
let coord_text = format!("{}: {:.2}", self.title, value);
let text_size = text_size(scale, &font, &coord_text).0 as i32;
let rect_x = mouse_x as i32 + 10;
let rect_y = mouse_y as i32 - 30;
let rect_width = text_size + 20;
let rect_height = 25;
let rect_x = rect_x.max(0).min((canvas.width as i32 - rect_width) as i32);
let rect_y = rect_y
.max(0)
.min((canvas.height as i32 - rect_height) as i32);
for y in rect_y..(rect_y + rect_height) {
for x in rect_x..(rect_x + rect_width) {
if x >= 0 && y >= 0 && (x as u32) < canvas.width && (y as u32) < canvas.height {
img.put_pixel(x as u32, y as u32, image::Rgb([255, 255, 255]));
}
}
}
for x in rect_x..(rect_x + rect_width) {
if rect_y >= 0 && (x as u32) < canvas.width {
img.put_pixel(x as u32, rect_y as u32, image::Rgb([0, 0, 0]));
img.put_pixel(
x as u32,
(rect_y + rect_height - 1) as u32,
image::Rgb([0, 0, 0]),
);
}
}
for y in rect_y..(rect_y + rect_height) {
if rect_x >= 0 && (y as u32) < canvas.height {
img.put_pixel(rect_x as u32, y as u32, image::Rgb([0, 0, 0]));
img.put_pixel(
(rect_x + rect_width - 1) as u32,
y as u32,
image::Rgb([0, 0, 0]),
);
}
}
draw_text_mut(
&mut img,
image::Rgb([0, 0, 0]),
rect_x + 10,
rect_y + 5,
scale,
&font,
&coord_text,
);
}
Some(
img.pixels()
.map(|pixel: &image::Rgb<u8>| {
let [r, g, b] = pixel.0;
(r as u32) << 16 | (g as u32) << 8 | b as u32
})
.collect(),
)
}
fn get_font<'a>(&self, font_data: &'a [u8]) -> FontRef<'a> {
FontRef::try_from_slice(&font_data).unwrap()
}
}