use image::{ codecs::png::{CompressionType, FilterType, PngEncoder}, ImageBuffer, ImageEncoder, }; use rayon::ThreadPoolBuilder; use std::{fs::File, io::Write}; use vek::*; use veloren_world::{ sim::{FileOpts, WorldOpts, DEFAULT_WORLD_MAP}, Land, World, }; fn grey_from_scalar(lo: f32, hi: f32, x: f32) -> [u8; 3] { let y = (x - lo) / (hi - lo); let z = (y * 255.0) as u8; [z, z, z] } fn grey_from_scalar_thresh(k: f32) -> impl Fn(f32, f32, f32) -> [u8; 3] { move |lo: f32, hi: f32, x: f32| -> [u8; 3] { let y = (x - lo) / (hi - lo); let y = if y > k { let mut y = y; // y \in [K, 1.0] y -= k; // y \in [0.0, 1.0-k] y *= 0.5 / (1.0 - k); // y \in [0.0, 0.50] y + 0.5 } else { 0.0 }; let z = (y * 255.0) as u8; [z, z, z] } } fn rgb_from_scalar(lo: f32, hi: f32, x: f32) -> [u8; 3] { let (lo, hi, x) = if lo < 0.0 { (0.0, hi - lo, x - lo) } else { (lo, hi, x) }; let mid = (hi - lo) / 2.0; let r = 0; let g = if x < mid { 0 } else { // x \in [mid, hi] let mut g = x - mid; // g \in [0, hi-mid] g /= hi - mid; // g \in [0, 1] g *= 255.0; // g \in [0, 255] g as u8 }; let b = if x >= mid { 255 - ((x - mid) / mid * 255.0) as u8 } else { // x \in [0, mid] let mut b = x / mid; // b \in [0, 1] b *= 255.0; // b \in [0, 255] b as u8 }; [r, g, b] } fn image_from_function [u8; 3]>( name: &str, width: u32, height: u32, mut f: F, ) { let mut heightmap: ImageBuffer, Vec> = ImageBuffer::new(width, height); for x in 0..width { for y in 0..height { heightmap.put_pixel(x, y, image::Rgb(f(x, y))); } } let mut heightmap_png = Vec::new(); let png = PngEncoder::new_with_quality(&mut heightmap_png, CompressionType::Best, FilterType::Paeth); png.write_image( heightmap.as_raw(), heightmap.width(), heightmap.height(), image::ColorType::Rgb8, ) .unwrap(); let mut f = File::create(name).unwrap(); f.write_all(&heightmap_png).unwrap(); } fn image_with_autorange [u8; 3], G: FnMut(u32, u32) -> f32>( name: &str, width: u32, height: u32, f: F, mut g: G, ) { let (mut lo, mut hi) = (f32::INFINITY, -f32::INFINITY); for x in 0..width { for y in 0..height { let h = g(x, y); lo = lo.min(h); hi = hi.max(h); //println!("{} {}: {:?}", x, y, h); } } //println!("lo: {:?}", lo); //println!("hi: {:?}", hi); image_from_function(name, width, height, |x, y| f(lo, hi, g(x, y))); } fn main() { common_frontend::init_stdout(None); let pool = ThreadPoolBuilder::new().build().unwrap(); println!("Loading world"); let (world, _index) = World::generate( 59686, WorldOpts { seed_elements: true, world_file: FileOpts::LoadAsset(DEFAULT_WORLD_MAP.into()), calendar: None, }, &pool, &|_| {}, ); println!("Loaded world"); let land = Land::from_sim(world.sim()); image_with_autorange("heightmap.png", 1024, 1024, rgb_from_scalar, |x, y| { land.get_alt_approx(Vec2::new(x as i32 * 32, y as i32 * 32)) }); image_with_autorange( "heightmap_big.png", 1024 * 4, 1024 * 4, rgb_from_scalar, |x, y| land.get_alt_approx(Vec2::new(x as i32 * 8, y as i32 * 8)), ); image_with_autorange("heightmap_dx.png", 1024, 1024, grey_from_scalar, |x, y| { let mut v = 0.0; for i in -1i32..=1 { for j in -1i32..=1 { let sobel = (2 - i.abs()) * (-j); v += sobel as f32 * land.get_alt_approx(Vec2::new((x as i32 + i) * 32, (y as i32 + j) * 32)); } } v }); image_with_autorange("heightmap_dy.png", 1024, 1024, grey_from_scalar, |x, y| { let mut v = 0.0; for i in -1i32..=1 { for j in -1i32..=1 { let sobel = (2 - j.abs()) * (-i); v += sobel as f32 * land.get_alt_approx(Vec2::new((x as i32 + i) * 32, (y as i32 + j) * 32)); } } v }); image_with_autorange( "heightmap_magnitude.png", 1024, 1024, grey_from_scalar, |x, y| { let mut dx = 0.0; for i in -1i32..=1 { for j in -1i32..=1 { let sobel = (2 - i.abs()) * (-j); dx += sobel as f32 * land.get_alt_approx(Vec2::new((x as i32 + i) * 32, (y as i32 + j) * 32)); } } let mut dy = 0.0; for i in -1i32..=1 { for j in -1i32..=1 { let sobel = (2 - j.abs()) * (-i); dy += sobel as f32 * land.get_alt_approx(Vec2::new((x as i32 + i) * 32, (y as i32 + j) * 32)); } } (dx * dx + dy * dy).sqrt() }, ); if false { for i in 1..=100 { #[rustfmt::skip] // convert -delay 10 -loop 0 -dispose previous heightmap_delta_{001..100}.png heightmap_thresholds.gif // convert -delay 20 -loop 0 -dispose previous $(seq 1 3 100 | xargs printf "heightmap_delta_%03d.png ") heightmap_thresholds.gif image_with_autorange( &format!("heightmap_delta_{:03}.png", i), 1024, 1024, grey_from_scalar_thresh(i as f32 * 0.01), |x, y| { let mut v = 0.0; for i in -1i32..=1 { for j in -1i32..=1 { let tmp = if i == 0 && j == 0 { 1.0 } else if (i + j).abs() == 1 { -0.25 } else { 0.0 }; v += tmp as f32 * land.get_alt_approx(Vec2::new( (x as i32 + i) * 32, (y as i32 + j) * 32, )); } } v }, ); } } image_with_autorange( "heightmap_max5.png", 1024, 1024, grey_from_scalar_thresh(0.95), |x, y| { let mut v = -f32::INFINITY; for i in -2i32..=2 { for j in -2i32..=2 { if i != 0 || j != 0 { v = v.max(land.get_alt_approx(Vec2::new( (x as i32 + i) * 32, (y as i32 + j) * 32, ))); } } } land.get_alt_approx(Vec2::new(x as i32 * 32, y as i32 * 32)) / v }, ); }