use plotters::prelude::*; use std::ops::Range; fn main() -> Result<(), Box> { let root = BitMapBackend::new("plotters-doc-data/mandelbrot.png", (800, 600)).into_drawing_area(); root.fill(&WHITE)?; let mut chart = ChartBuilder::on(&root) .margin(20) .x_label_area_size(10) .y_label_area_size(10) .build_cartesian_2d(-2.1f64..0.6f64, -1.2f64..1.2f64)?; chart .configure_mesh() .disable_x_mesh() .disable_y_mesh() .draw()?; let plotting_area = chart.plotting_area(); let range = plotting_area.get_pixel_range(); let (pw, ph) = (range.0.end - range.0.start, range.1.end - range.1.start); let (xr, yr) = (chart.x_range(), chart.y_range()); for (x, y, c) in mandelbrot_set(xr, yr, (pw as usize, ph as usize), 100) { if c != 100 { plotting_area.draw_pixel((x, y), &HSLColor(c as f64 / 100.0, 1.0, 0.5))?; } else { plotting_area.draw_pixel((x, y), &BLACK)?; } } Ok(()) } fn mandelbrot_set( real: Range, complex: Range, samples: (usize, usize), max_iter: usize, ) -> impl Iterator { let step = ( (real.end - real.start) / samples.0 as f64, (complex.end - complex.start) / samples.1 as f64, ); return (0..(samples.0 * samples.1)).map(move |k| { let c = ( real.start + step.0 * (k % samples.0) as f64, complex.start + step.1 * (k / samples.0) as f64, ); let mut z = (0.0, 0.0); let mut cnt = 0; while cnt < max_iter && z.0 * z.0 + z.1 * z.1 <= 1e10 { z = (z.0 * z.0 - z.1 * z.1 + c.0, 2.0 * z.0 * z.1 + c.1); cnt += 1; } return (c.0, c.1, cnt); }); } #[test] fn entry_point() { main().unwrap() }