| use plotters::prelude::*; |
| |
| fn snowflake_iter(points: &[(f64, f64)]) -> Vec<(f64, f64)> { |
| let mut ret = vec![]; |
| for i in 0..points.len() { |
| let (start, end) = (points[i], points[(i + 1) % points.len()]); |
| let t = ((end.0 - start.0) / 3.0, (end.1 - start.1) / 3.0); |
| let s = ( |
| t.0 * 0.5 - t.1 * (0.75f64).sqrt(), |
| t.1 * 0.5 + (0.75f64).sqrt() * t.0, |
| ); |
| ret.push(start); |
| ret.push((start.0 + t.0, start.1 + t.1)); |
| ret.push((start.0 + t.0 + s.0, start.1 + t.1 + s.1)); |
| ret.push((start.0 + t.0 * 2.0, start.1 + t.1 * 2.0)); |
| } |
| ret |
| } |
| |
| const OUT_FILE_NAME: &'static str = "plotters-doc-data/snowflake.png"; |
| fn main() -> Result<(), Box<dyn std::error::Error>> { |
| let root = BitMapBackend::new(OUT_FILE_NAME, (1024, 768)).into_drawing_area(); |
| |
| root.fill(&WHITE)?; |
| |
| let mut chart = ChartBuilder::on(&root) |
| .caption("Koch's Snowflake", ("sans-serif", 50)) |
| .build_cartesian_2d(-2.0..2.0, -1.5..1.5)?; |
| |
| let mut snowflake_vertices = { |
| let mut current: Vec<(f64, f64)> = vec![ |
| (0.0, 1.0), |
| ((3.0f64).sqrt() / 2.0, -0.5), |
| (-(3.0f64).sqrt() / 2.0, -0.5), |
| ]; |
| for _ in 0..6 { |
| current = snowflake_iter(¤t[..]); |
| } |
| current |
| }; |
| |
| chart.draw_series(std::iter::once(Polygon::new( |
| snowflake_vertices.clone(), |
| &RED.mix(0.2), |
| )))?; |
| snowflake_vertices.push(snowflake_vertices[0]); |
| chart.draw_series(std::iter::once(PathElement::new(snowflake_vertices, &RED)))?; |
| |
| // To avoid the IO failure being ignored silently, we manually call the present function |
| root.present().expect("Unable to write result to file, please make sure 'plotters-doc-data' dir exists under current dir"); |
| println!("Result has been saved to {}", OUT_FILE_NAME); |
| Ok(()) |
| } |
| #[test] |
| fn entry_point() { |
| main().unwrap() |
| } |
