Sanitize maze mapgen code a bit transitional_engine
authorunC0Rr
Mon, 16 Sep 2024 16:57:11 +0200
branchtransitional_engine
changeset 16063 09beeec033ba
parent 16062 1860852892c0
child 16064 0caa3dfb3ba2
Sanitize maze mapgen code a bit
rust/landgen/src/maze.rs
rust/lib-hwengine-future/src/lib.rs
--- a/rust/landgen/src/maze.rs	Tue Sep 10 18:21:31 2024 +0200
+++ b/rust/landgen/src/maze.rs	Mon Sep 16 16:57:11 2024 +0200
@@ -9,7 +9,341 @@
     pub cell_size: usize,
     pub inverted: bool,
     pub distortion_limiting_factor: u32,
-    pub braidness: usize,
+    pub braidness: u32,
+}
+
+struct Maze {
+    inverted: bool,
+    braidness: u32,
+    off_y: i32,
+    num_cells: Size,
+    num_edges: Size,
+    seen_cells: Size,
+    cell_size: usize,
+    seen_list: Vec<Vec<Option<usize>>>,
+    walls: Vec<Vec<Vec<bool>>>,
+    edge_list: Vec<Vec<Vec<bool>>>,
+    last_cell: Vec<Point>,
+    came_from: Vec<Vec<Point>>,
+    came_from_pos: Vec<i32>,
+}
+
+fn in_line(p1: &Point, p2: &Point, p3: &Point) -> bool {
+    p1.x == p2.x && p2.x == p3.x || p1.y == p2.y && p2.y == p3.y
+}
+
+#[derive(Clone, Copy)]
+struct Direction(Point);
+
+impl Direction {
+    #[inline]
+    pub fn new(direction: usize) -> Self {
+        match direction % 4 {
+            0 => Self(Point::new(0, -1)),
+            1 => Self(Point::new(1, 0)),
+            2 => Self(Point::new(0, 1)),
+            3 => Self(Point::new(-1, 0)),
+            _ => panic!("Impossible"),
+        }
+    }
+
+    #[inline]
+    pub fn rotate_right(self) -> Self {
+        Self(self.0.rotate90())
+    }
+
+    #[inline]
+    pub fn rotate_left(self) -> Self {
+        Self(self.0.rotate270())
+    }
+
+    #[inline]
+    pub fn to_edge(self) -> Self {
+        Self(Point::new(
+            if self.0.x < 0 { 0 } else { self.0.x },
+            if self.0.y < 0 { 0 } else { self.0.y },
+        ))
+    }
+
+    #[inline]
+    pub fn orientation(&self) -> usize {
+        if self.0.x == 0 {
+            0
+        } else {
+            1
+        }
+    }
+}
+
+impl Maze {
+    pub fn new<I: Iterator<Item = u32>>(
+        size: &Size,
+        cell_size: usize,
+        num_steps: usize,
+        inverted: bool,
+        braidness: u32,
+        random_numbers: &mut I,
+    ) -> Self {
+        let num_cells = Size::new(
+            prev_odd(size.width / cell_size),
+            prev_odd(size.height / cell_size),
+        );
+
+        let num_edges = Size::new(num_cells.width - 1, num_cells.height - 1);
+        let seen_cells = Size::new(num_cells.width / 2, num_cells.height / 2);
+
+        let mut last_cell = vec![Point::diag(0); num_steps];
+        let came_from_pos = vec![0; num_steps];
+        let came_from = vec![vec![Point::diag(0); num_steps]; num_cells.area()];
+
+        let seen_list = vec![vec![None as Option<usize>; seen_cells.width]; seen_cells.height];
+        let walls = vec![vec![vec![true; seen_cells.width]; seen_cells.height]; 2];
+        let edge_list = vec![vec![vec![false; num_cells.width]; num_cells.height]; 2];
+
+        for current_step in 0..num_steps {
+            let x = random_numbers.next().unwrap_or_default() as usize % (seen_cells.width - 1)
+                / num_steps;
+            last_cell[current_step] = Point::new(
+                (x + current_step * seen_cells.width / num_steps) as i32,
+                random_numbers.next().unwrap_or_default() as i32 % seen_cells.height as i32,
+            );
+        }
+
+        Self {
+            inverted,
+            braidness,
+            off_y: ((size.height - num_cells.height * cell_size) / 2) as i32,
+            num_cells,
+            num_edges,
+            seen_cells,
+            cell_size,
+            seen_list,
+            walls,
+            edge_list,
+            last_cell,
+            came_from,
+            came_from_pos,
+        }
+    }
+
+    fn see_cell<I: Iterator<Item = u32>>(
+        &mut self,
+        current_step: usize,
+        start_dir: Direction,
+        random_numbers: &mut I,
+    ) -> bool {
+        let mut dir = start_dir;
+        loop {
+            let p = self.last_cell[current_step];
+            self.seen_list[p.y as usize][p.x as usize] = Some(current_step);
+
+            let next_dir_clockwise = random_numbers.next().unwrap_or_default() % 2 == 0;
+
+            for _ in 0..5 {
+                let sp = p + dir.0;
+                let when_seen = if sp.x < 0
+                    || sp.x >= self.seen_cells.width as i32
+                    || sp.y < 0
+                    || sp.y >= self.seen_cells.height as i32
+                {
+                    Some(current_step)
+                } else {
+                    self.seen_list[sp.y as usize][sp.x as usize]
+                };
+
+                match when_seen {
+                    Some(a) if a == current_step => {
+                        // try another direction
+                        if !self.inverted
+                            && random_numbers.next().unwrap_or_default() % self.braidness == 0
+                        {
+                            if dir.0.x == -1 && p.x > 0 {
+                                self.walls[dir.orientation()][p.y as usize][p.x as usize - 1] =
+                                    false;
+                            }
+                            if dir.0.x == 1 && p.x < self.seen_cells.width as i32 - 1 {
+                                self.walls[dir.orientation()][p.y as usize][p.x as usize] = false;
+                            }
+                            if dir.0.y == -1 && p.y > 0 {
+                                self.walls[dir.orientation()][p.y as usize - 1][p.x as usize] =
+                                    false;
+                            }
+                            if dir.0.y == 1 && p.y < self.seen_cells.height as i32 - 1 {
+                                self.walls[dir.orientation()][p.y as usize][p.x as usize] = false;
+                            }
+                        }
+
+                        if next_dir_clockwise {
+                            dir = dir.rotate_right();
+                        } else {
+                            dir = dir.rotate_left();
+                        }
+                    }
+                    None => {
+                        // cell was not seen yet, go there
+                        let o_dir = dir.rotate_right().rotate_right();
+                        let op = p - o_dir.to_edge().0;
+                        self.walls[o_dir.orientation()][op.y as usize][op.x as usize] = false;
+                        self.last_cell[current_step] = sp;
+                        self.came_from_pos[current_step] += 1;
+                        self.came_from[self.came_from_pos[current_step] as usize][current_step] = p;
+                        return false;
+                    }
+                    _ => {
+                        return true;
+                    }
+                }
+            }
+
+            self.last_cell[current_step] =
+                self.came_from[self.came_from_pos[current_step] as usize][current_step];
+            self.came_from_pos[current_step] -= 1;
+
+            if self.came_from_pos[current_step] < 0 {
+                return true;
+            }
+        }
+    }
+
+    fn add_vertex(&mut self, p: Point, polygon: &mut Vec<Point>) {
+        let [x, y] = [p.x, p.y].map(|i| {
+            if self.inverted || i & 1 == 0 {
+                self.cell_size
+            } else {
+                self.cell_size * 2 / 3
+            }
+        });
+        let new_point = Point::new(
+            (p.x - 1) * self.cell_size as i32 + x as i32,
+            (p.y - 1) * self.cell_size as i32 + y as i32 + self.off_y,
+        );
+
+        let nv = polygon.len();
+        if nv > 2 {
+            if in_line(&polygon[nv - 2], &polygon[nv - 1], &new_point) {
+                polygon.pop();
+            }
+        }
+
+        polygon.push(new_point);
+    }
+
+    fn add_edge(&mut self, p: Point, mut dir: Direction, polygon: &mut Vec<Point>) {
+        let mut next_p = Some(p);
+
+        while let Some(p) = next_p {
+            next_p = None;
+
+            for _ in 0..4 {
+                let cdir = dir.to_edge();
+
+                let np = p + cdir.0;
+
+                if np.x >= 0
+                    && np.y >= 0
+                    && np.x < self.num_cells.width as i32
+                    && np.y < self.num_cells.height as i32
+                    && self.edge_list[dir.orientation()][np.y as usize][np.x as usize]
+                {
+                    self.edge_list[dir.orientation()][np.y as usize][np.x as usize] = false;
+                    self.add_vertex(p + dir.0 + Point::new(1, 1), polygon);
+                    next_p = Some(p + dir.0);
+                    break;
+                }
+
+                dir = dir.rotate_right();
+            }
+        }
+    }
+
+    pub fn to_islands(mut self) -> (Vec<Polygon>, Vec<Point>) {
+        let mut islands: Vec<Polygon> = vec![];
+        let mut polygon: Vec<Point> = vec![];
+        let mut maze = vec![vec![false; self.num_cells.width]; self.num_cells.height];
+
+        for x in 0..self.seen_cells.width {
+            for y in 0..self.seen_cells.height {
+                if self.seen_list[y][x].is_some() {
+                    maze[y * 2 + 1][x * 2 + 1] = true;
+                }
+            }
+
+            for y in 0..self.seen_cells.height - 1 {
+                if !self.walls[0][y][x] {
+                    maze[y * 2 + 2][x * 2 + 1] = true;
+                }
+            }
+        }
+
+        for x in 0..self.seen_cells.width - 1 {
+            for y in 0..self.seen_cells.height {
+                if !self.walls[1][y][x] {
+                    maze[y * 2 + 1][x * 2 + 2] = true;
+                }
+            }
+        }
+
+        for x in 0..self.num_edges.width {
+            for y in 0..self.num_cells.height {
+                self.edge_list[0][y][x] = maze[y][x] != maze[y][x + 1];
+            }
+        }
+
+        for x in 0..self.num_cells.width {
+            for y in 0..self.num_edges.height {
+                self.edge_list[1][y][x] = maze[y][x] != maze[y + 1][x];
+            }
+        }
+
+        let mut fill_points = vec![];
+
+        for y in 0..self.num_cells.height {
+            for x in 0..self.num_cells.width {
+                if maze[y][x] {
+                    let half_cell = self.cell_size / 2;
+                    let fill_point = Point::new(
+                        (x * self.cell_size + half_cell) as i32,
+                        (y * self.cell_size + half_cell) as i32 + self.off_y,
+                    );
+                    islands.push(Polygon::new(&[fill_point]));
+                    fill_points.push(fill_point);
+                }
+            }
+        }
+
+        for x in 0..self.num_edges.width {
+            for y in 0..self.num_cells.height {
+                if self.edge_list[0][y][x] {
+                    self.edge_list[0][y][x] = false;
+                    self.add_vertex(Point::new(x as i32 + 1, y as i32 + 1), &mut polygon);
+                    self.add_vertex(Point::new(x as i32 + 1, y as i32), &mut polygon);
+                    self.add_edge(
+                        Point::new(x as i32, y as i32 - 1),
+                        Direction::new(0),
+                        &mut polygon,
+                    );
+
+                    if polygon.len() > 4 {
+                        if in_line(polygon.last().unwrap(), &polygon[0], &polygon[1]) {
+                            polygon.pop();
+                        }
+
+                        /*
+                                                for p in &polygon {
+                                                    println!("{} {}", p.x, p.y);
+                                                }
+                                                println!("\ne\n");
+                        */
+
+                        islands.push(Polygon::new(&polygon));
+                    }
+                    polygon.clear();
+                }
+            }
+        }
+
+        (islands, fill_points)
+    }
 }
 
 pub struct MazeLandGenerator {
@@ -36,248 +370,36 @@
         intersections_box: Rect,
         random_numbers: &mut I,
     ) -> OutlinePoints {
-        let num_cells = Size::new(
-            prev_odd(size.width / self.maze_template.cell_size),
-            prev_odd(size.height / self.maze_template.cell_size),
-        );
-
-        let num_edges = Size::new(num_cells.width - 1, num_cells.height - 1);
-        let seen_cells = Size::new(num_cells.width / 2, num_cells.height / 2);
-
         let num_steps = if self.maze_template.inverted { 3 } else { 1 };
         let mut step_done = vec![false; num_steps];
-        let mut last_cell = vec![Point::diag(0); num_steps];
-        let mut came_from_pos = vec![0; num_steps];
-        let mut came_from = vec![vec![Point::diag(0); num_steps]; num_cells.area()];
-
         let mut done = false;
-        let mut seen_list = vec![vec![None as Option<usize>; seen_cells.width]; seen_cells.height];
-        let mut x_walls = vec![vec![true; seen_cells.width]; seen_cells.height - 1];
-        let mut y_walls = vec![vec![true; seen_cells.width - 1]; seen_cells.height];
-        let mut x_edge_list = vec![vec![false; num_edges.width]; num_cells.height];
-        let mut y_edge_list = vec![vec![false; num_cells.width]; num_edges.height];
-
-        let mut maze = vec![vec![false; num_cells.width]; num_cells.height];
-
-        let off_y = 0;
-
-        for current_step in 0..num_steps {
-            let x = random_numbers.next().unwrap_or_default() as usize % (seen_cells.width - 1)
-                / num_steps;
-            last_cell[current_step] = Point::new(
-                (x + current_step * seen_cells.width / num_steps) as i32,
-                random_numbers.next().unwrap_or_default() as i32 % seen_cells.height as i32,
-            );
-        }
-
-        let see_cell = |current_step: usize, start_dir: Point, seen_list: &mut Vec<Vec<Option<usize>>>, x_walls: &mut Vec<Vec<bool>>, y_walls: &mut Vec<Vec<bool>>,
-                        last_cell: &mut Vec<Point>, came_from: &mut Vec<Vec<Point>>, came_from_pos: &mut Vec<i32>| {
-            let mut dir = start_dir;
-            loop {
-                let p = dbg!(last_cell[current_step]);
-                seen_list[p.y as usize][p.x as usize] = Some(dbg!(current_step));
-
-                let next_dir_clockwise = true;//random_numbers.next().unwrap_or_default() % 2 == 0;
-
-                for _ in 0..5 {
-                    let sp = dbg!(p) + dbg!(dir);
-                    let when_seen =
-                        if sp.x < 0
-                            || sp.x >= seen_cells.width as i32
-                            || sp.y < 0
-                            || sp.y >= seen_cells.height as i32
-                        {
-                            None
-                        } else {
-                            Some(seen_list[sp.y as usize][sp.x as usize])
-                        }
-                    ;
-
-                    match when_seen {
-                        None => {
-                            // try another direction
-                            if dir.x == -1 && p.x > 0 {
-                                y_walls[p.y as usize][p.x as usize - 1] = false;
-                            }
-                            if dir.x == 1 && p.x < seen_cells.width as i32 - 1 {
-                                y_walls[p.y as usize][p.x as usize] = false;
-                            }
-                            if dir.y == -1 && p.y > 0 {
-                                x_walls[p.y as usize][p.x as usize] = false;
-                            }
-                            if dir.y == 1 && p.y < seen_cells.height as i32 - 1 {
-                                x_walls[p.y as usize][p.x as usize] = false;
-                            }
 
-                            if next_dir_clockwise {
-                                dir = dir.rotate90();
-                            } else {
-                                dir = dir.rotate270();
-                            }
-                        }
-                        Some(None) => {
-                            // cell was not seen yet, go there
-                            if dir.y == -1 {
-                                x_walls[p.y as usize - 1][p.x as usize] = false;
-                            }
-                            if dir.y == 1 {
-                                x_walls[p.y as usize][p.x as usize] = false;
-                            }
-                            if dir.x == -1 {
-                                y_walls[p.y as usize][p.x as usize - 1] = false;
-                            }
-                            if dir.x == 1 {
-                                y_walls[p.y as usize][p.x as usize] = false;
-                            }
-                            last_cell[current_step] = dbg!(sp);
-                            came_from_pos[current_step] += 1;
-                            came_from[came_from_pos[current_step] as usize][current_step] = p;
-                            return true;
-                        }
-                        _ => {
-                            return true;
-                        }
-                    }
-                }
-
-                last_cell[current_step] = came_from[came_from_pos[current_step] as usize][current_step];
-                came_from_pos[current_step] -= 1;
-
-                return came_from_pos[current_step] < 0;
-            }
-        };
-
-        let mut islands: Vec<Polygon> = vec![];
-        let mut polygon: Vec<Point> = vec![];
-        let add_vertex = |p: Point, polygon: &mut Vec<Point>| {
-            let cell_size = self.maze_template.cell_size as i32;
-            let [x, y] = [p.x, p.y].map(|i| {
-                if self.maze_template.inverted || i & 1 == 0 {
-                    cell_size
-                } else {
-                    cell_size * 2 / 3
-                }
-            });
-            let new_point =
-                Point::new((p.x - 1) * cell_size + x, (p.y - 1) * cell_size + y + off_y);
-
-            let nv = polygon.len();
-            if nv > 2 {
-                if polygon[nv - 2].x == polygon[nv - 1].x && polygon[nv - 1].x == new_point.x
-                    || polygon[nv - 2].y == polygon[nv - 1].y && polygon[nv - 1].y == new_point.y
-                {
-                    polygon.pop();
-                }
-            }
-
-            polygon.push(new_point);
-        };
-
-        let add_edge = |p: Point, dir: Point, polygon: &mut Vec<Point>, x_edge_list: &mut Vec<Vec<bool>>, y_edge_list: &mut Vec<Vec<bool>>| {
-            let mut dir = dir.rotate270();
-            let mut next_p = Some(p);
-
-            while let Some(p) = next_p {
-                next_p = None;
-
-                for _ in 0..4 {
-                    dir = dir.rotate90();
-                    let cdir = Point::new(
-                        if dir.x < 0 { 0 } else { dir.x },
-                        if dir.y < 0 { 0 } else { dir.y },
-                    );
-
-                    let np = p + cdir;
-                    let edge_list = if dir.x == 0 {
-                        &mut *x_edge_list
-                    } else {
-                        &mut *y_edge_list
-                    };
-                    if np.x >= 0
-                        && np.y > 0
-                        && np.x < num_cells.width as i32
-                        && np.y < num_cells.height as i32
-                        && edge_list[np.y as usize][np.x as usize]
-                    {
-                        (*edge_list)[np.y as usize][np.x as usize] = false;
-                        add_vertex(p + dir + Point::new(1, 1), polygon);
-                        next_p = Some(p + dir);
-                        break;
-                    }
-                }
-            }
-        };
+        let mut maze = Maze::new(
+            &size,
+            self.maze_template.cell_size,
+            num_steps,
+            self.maze_template.inverted,
+            self.maze_template.braidness,
+            random_numbers,
+        );
 
         while !done {
             done = true;
 
             for current_step in 0..num_steps {
                 if !step_done[current_step] {
-                    let dir = match random_numbers.next().unwrap_or_default() % 4 {
-                        0 => Point::new(0, -1),
-                        1 => Point::new(1, 0),
-                        2 => Point::new(0, 1),
-                        3 => Point::new(-1, 0),
-                        _ => panic!(),
-                    };
-                    step_done[current_step] =
-                        see_cell(current_step, dir, &mut seen_list, &mut x_walls, &mut y_walls, &mut last_cell, &mut came_from, &mut came_from_pos);
+                    let dir = Direction::new(random_numbers.next().unwrap_or_default() as usize);
+                    step_done[current_step] = maze.see_cell(current_step, dir, random_numbers);
                     done = false;
                 }
             }
         }
 
-        for x in 0..seen_cells.width {
-            for y in 0..seen_cells.height {
-                if seen_list[y][x].is_some() {
-                    maze[y * 2 + 1][x * 2 + 1] = true;
-                }
-            }
-
-            for y in 0..seen_cells.height - 1 {
-                if !x_walls[y][x] {
-                    maze[y * 2 + 2][x * 2 + 1] = true;
-                }
-            }
-        }
-
-        for x in 0..seen_cells.width - 1 {
-            for y in 0..seen_cells.height {
-                if !y_walls[y][x] {
-                    maze[y * 2 + 1][x * 2 + 2] = true;
-                }
-            }
-        }
-
-        for x in 0..num_edges.width {
-            for y in 0..num_cells.height {
-                x_edge_list[y][x] = maze[y][x] != maze[y][x + 1];
-            }
-        }
-
-        for x in 0..num_cells.width {
-            for y in 0..num_edges.height {
-                y_edge_list[y][x] = maze[y][x] != maze[y + 1][x];
-            }
-        }
-
-        for x in 0..num_edges.width {
-            for y in 0..num_cells.height {
-                if x_edge_list[y][x] {
-                    x_edge_list[y][x] = false;
-                    add_vertex(Point::new(x as i32 + 1, y as i32 + 1), &mut polygon);
-                    add_vertex(Point::new(x as i32 + 1, y as i32), &mut polygon);
-                    add_edge(Point::new(x as i32, y as i32 - 1), Point::new(0, -1), &mut polygon, &mut x_edge_list, &mut y_edge_list);
-
-                    islands.push(Polygon::new(&polygon));
-                    polygon.clear();
-                }
-            }
-        }
+        let (islands, fill_points) = maze.to_islands();
 
         OutlinePoints {
             islands,
-            fill_points: vec![Point::new(1, 1 + off_y)],
+            fill_points,
             size: *size,
             play_box,
             intersections_box,
@@ -291,7 +413,7 @@
         parameters: &LandGenerationParameters<T>,
         random_numbers: &mut I,
     ) -> Land2D<T> {
-        let do_invert = false;
+        let do_invert = self.maze_template.inverted;
         let (basic, zero) = if do_invert {
             (parameters.zero, parameters.basic)
         } else {
@@ -303,7 +425,7 @@
 
         let mut points = self.generate_outline(
             &land.size().size(),
-            Rect::at_origin(land_size).with_margin(land_size.to_square().width as i32 * -2),
+            land.play_box(), //??? Rect::at_origin(land_size).with_margin(land_size.to_square().width as i32 * -2),
             land.play_box(),
             random_numbers,
         );
@@ -322,8 +444,6 @@
             land.fill(*p, zero, zero)
         }
 
-        points.draw(&mut land, basic);
-
         land
     }
 }
--- a/rust/lib-hwengine-future/src/lib.rs	Tue Sep 10 18:21:31 2024 +0200
+++ b/rust/lib-hwengine-future/src/lib.rs	Mon Sep 16 16:57:11 2024 +0200
@@ -147,9 +147,9 @@
     let template = MazeTemplate {
         width: 4096,
         height: 2048,
-        cell_size: 80,
+        cell_size: 225,
         inverted: false,
-        distortion_limiting_factor: 100,
+        distortion_limiting_factor: 120,
         braidness: 10,
     };
     let landgen = map_gen.build_generator(template);