Work towards gridless difficult terrain pathfinding

2022-06-10 16:52:44 +02:00
7 changed files with 333 additions and 43 deletions
@@ -7,7 +7,7 @@ import {disableSnap, registerKeybindings} from "./keybindings.js";
 import {libWrapper} from "./libwrapper_shim.js";
 import {performMigrations} from "./migration.js"
 import {removeLastHistoryEntryIfAt, resetMovementHistory} from "./movement_tracking.js";
-import {wipePathfindingCache, initializePathfinding, startBackgroundCaching} from "./pathfinding.js";
+import {wipePathfindingCache, initializePathfinding, startBackgroundCaching, terrainRulerWrapper} from "./pathfinding.js";
 import {extendRuler} from "./ruler.js";
 import {registerSettings, RightClickAction, settingsKey} from "./settings.js"
 import {recalculate} from "./socket.js";
@@ -62,6 +62,9 @@ Hooks.once("init", () => {
 		registerSystem,
 		recalculate,
 		resetMovementHistory,
 		private: {
 			terrainRulerWrapper
 		}
 	}
 })
@@ -253,7 +253,10 @@ export function findPath(from, to, token, previousWaypoints) {
 		let pathfinder = gridlessPathfinders.get(tokenSize);
 		if (!pathfinder) {
 			let radiusMultiplier = game.settings.get(settingsKey, "pathfindingRadius");
-			pathfinder = GridlessPathfinding.initialize(canvas.walls.placeables, tokenSize * radiusMultiplier, token.data.elevation, Boolean(game.modules.get("wall-height")?.active));
+			// TODO Pass proper options to listAllTerrain
 			// TODO Wipe caches when they become invalid
 			// TODO Multiple caches, analog to gridded pathfinding
 			pathfinder = GridlessPathfinding.initialize(canvas.walls.placeables, canvas.terrain.listAllTerrain(), tokenSize * radiusMultiplier, token.data.elevation, Boolean(game.modules.get("wall-height")?.active));
 			gridlessPathfinders.set(tokenSize, pathfinder);
 		}
 		paintGridlessPathfindingDebug(pathfinder);
@@ -304,6 +307,12 @@ export function findPath(from, to, token, previousWaypoints) {
 	}
 }
 export function terrainRulerWrapper(from, to) {
 	// TODO Send list of terrain to terrain layer
 	const ray = new Ray(from, to);
 	return terrainRuler.measureDistances([{ray}])[0] / canvas.dimensions.distance * canvas.dimensions.size;
 }
 function buildTokenData(token) {
 	// Almost all the information we need is for calculating the snap point
 	const tokenData = buildSnapPointTokenData(token);
@@ -38,6 +38,11 @@ impl Point {
 		let e = 0.000001;
 		(self.x - other.x).abs() < e && (self.y - other.y).abs() < e
 	}
 	pub fn is_in_rectangle(&self, rect: &Rectangle) -> bool {
 		between(self.x, rect.left.p1.x, rect.right.p1.x)
 			&& between(self.y, rect.top.p1.y, rect.bottom.p1.y)
 	}
 }
 impl Eq for Point {}
@@ -179,9 +184,70 @@ impl LineSegment {
 		}
 		between(intersection.x, self.p1.x, self.p2.x)
 	}
 	pub fn intersects_rect(&self, rect: &Rectangle) -> bool {
 		if self.p1.is_in_rectangle(rect) {
 			return true;
 		}
 		[rect.left, rect.top, rect.right, rect.bottom]
 			.iter()
 			.any(|edge| self.intersection(edge).is_some())
 	}
 }
 pub fn between<T: Copy + PartialOrd>(num: T, a: T, b: T) -> bool {
 	let (min, max) = if a < b { (a, b) } else { (b, a) };
 	num >= min && num <= max
 }
 #[wasm_bindgen]
 extern "C" {
 	pub type JsRectangle;
 	#[wasm_bindgen(method, getter)]
 	fn left(this: &JsRectangle) -> f64;
 	#[wasm_bindgen(method, getter)]
 	fn top(this: &JsRectangle) -> f64;
 	#[wasm_bindgen(method, getter)]
 	fn right(this: &JsRectangle) -> f64;
 	#[wasm_bindgen(method, getter)]
 	fn bottom(this: &JsRectangle) -> f64;
 }
 #[derive(Debug, Clone, Copy)]
 pub struct Rectangle {
 	pub left: LineSegment,
 	pub top: LineSegment,
 	pub right: LineSegment,
 	pub bottom: LineSegment,
 }
 impl Rectangle {
 	pub fn new(left: f64, top: f64, right: f64, bottom: f64) -> Self {
 		Self {
 			left: LineSegment::new(Point::new(left, top), Point::new(left, bottom)),
 			top: LineSegment::new(Point::new(left, top), Point::new(right, top)),
 			right: LineSegment::new(Point::new(right, top), Point::new(right, bottom)),
 			bottom: LineSegment::new(Point::new(left, bottom), Point::new(right, bottom)),
 		}
 	}
 }
 impl From<&JsRectangle> for Rectangle {
 	fn from(rect: &JsRectangle) -> Self {
 		let left = rect.left();
 		let top = rect.top();
 		let right = rect.right();
 		let bottom = rect.bottom();
 		Self::new(left, top, right, bottom)
 	}
 }
 #[derive(Debug, Copy, Clone)]
 pub struct Circle {
 	pub center: Point,
 	pub radius: f64,
 }
@@ -1,10 +1,11 @@
 use js_sys::Array;
-use sha1::{Sha1, Digest};
+use sha1::{Digest, Sha1};
 use wasm_bindgen::prelude::*;
 use crate::{
-	geometry::Point,
+	geometry::{Circle, LineSegment, Point, Rectangle},
 	pathfinder::{DiscoveredNodePtr, Pathfinder},
 	util::Windows,
 };
 #[allow(unused)]
@@ -18,6 +19,9 @@ macro_rules! log {
 extern "C" {
 	#[wasm_bindgen(js_namespace = console, js_name=warn)]
 	pub fn log(s: &str);
 	#[wasm_bindgen(js_namespace = ["dragRuler", "private"], js_name=terrainRulerWrapper)]
 	pub fn distance_with_terrain(a: Point, b: Point) -> f64;
 }
 #[wasm_bindgen]
@@ -75,6 +79,112 @@ impl From<JsPoint> for Point {
 	}
 }
 #[wasm_bindgen]
 extern "C" {
 	pub type JsTerrainInfo;
 	pub type JsTerrainObject;
 	pub type JsTerrainShape;
 	#[wasm_bindgen(method, getter)]
 	fn object(this: &JsTerrainInfo) -> JsTerrainObject;
 	#[wasm_bindgen(method, getter)]
 	fn shape(this: &JsTerrainInfo) -> JsTerrainShape;
 	#[wasm_bindgen(method, getter)]
 	fn x(this: &JsTerrainObject) -> f64;
 	#[wasm_bindgen(method, getter)]
 	fn y(this: &JsTerrainObject) -> f64;
 	#[wasm_bindgen(method, getter)]
 	fn width(this: &JsTerrainObject) -> f64;
 	#[wasm_bindgen(method, getter)]
 	fn height(this: &JsTerrainObject) -> f64;
 	#[wasm_bindgen(method, getter, js_name = "type")]
 	fn shape_type(this: &JsTerrainShape) -> u32;
 	#[wasm_bindgen(method, getter)]
 	fn x(this: &JsTerrainShape) -> f64;
 	#[wasm_bindgen(method, getter)]
 	fn y(this: &JsTerrainShape) -> f64;
 	#[wasm_bindgen(method, getter)]
 	fn radius(this: &JsTerrainShape) -> f64;
 	#[wasm_bindgen(method, getter)]
 	fn points(this: &JsTerrainShape) -> Vec<f64>;
 }
 impl JsTerrainObject {
 	fn to_bounding_rect(&self) -> Rectangle {
 		let left = self.x();
 		let top = self.y();
 		let right = left + self.width();
 		let bottom = top + self.height();
 		Rectangle::new(left, top, right, bottom)
 	}
 }
 impl JsTerrainShape {
 	fn to_segments(&self, x: f64, y: f64) -> Vec<LineSegment> {
 		let points = self.points();
 		assert!(points.len() % 2 == 0);
 		points
 			.chunks(2)
 			.map(|coordinates| Point::new(coordinates[0] + x, coordinates[1] + y))
 			.windows()
 			.map(|(p1, p2)| LineSegment::new(p1, p2))
 			.collect()
 	}
 	fn to_circle(&self, x: f64, y: f64) -> Circle {
 		let center = Point::new(self.x() + x, self.y() + y);
 		let radius = self.radius();
 		Circle { center, radius }
 	}
 }
 impl From<&JsTerrainInfo> for TerrainShape {
 	fn from(terrain: &JsTerrainInfo) -> Self {
 		let shape = terrain.shape();
 		let object = terrain.object();
 		let x = object.x();
 		let y = object.y();
 		match shape.shape_type() {
 			0 => TerrainShape::Polygon(shape.to_segments(x, y)),
 			2 => TerrainShape::Circle(shape.to_circle(x, y)),
 			_ => unimplemented!(),
 		}
 	}
 }
 #[derive(Debug, Clone)]
 pub enum TerrainShape {
 	Polygon(Vec<LineSegment>),
 	Circle(Circle),
 }
 #[derive(Debug, Clone)]
 pub struct Terrain {
 	pub shape: TerrainShape,
 	pub bounding_box: Rectangle,
 }
 impl From<&JsTerrainInfo> for Terrain {
 	fn from(terrain: &JsTerrainInfo) -> Self {
 		let bounding_box = terrain.object().to_bounding_rect();
 		let shape = terrain.into();
 		Self {
 			bounding_box,
 			shape,
 		}
 	}
 }
 #[wasm_bindgen]
 #[derive(Debug, Copy, Clone, PartialEq)]
 pub enum DoorState {
@@ -212,8 +322,7 @@ impl Wall {
 		c.iter_mut().for_each(|val| *val = val.round());
 		let height = if enable_height {
 			data.flags().wall_height().into()
-		}
+		} else {
 		else {
 			WallHeight::default()
 		};
 		Self::new(
@@ -229,13 +338,20 @@ impl Wall {
 #[allow(dead_code)]
 #[wasm_bindgen]
-pub fn initialize(js_walls: Vec<JsValue>, token_size: f64, token_elevation: f64, enable_height: bool) -> Pathfinder {
+pub fn initialize(
 	js_walls: Vec<JsValue>,
 	js_terrain: Vec<JsTerrainInfo>,
 	token_size: f64,
 	token_elevation: f64,
 	enable_height: bool,
 ) -> Pathfinder {
 	let mut walls = Vec::with_capacity(js_walls.len());
 	for wall in js_walls {
 		let wall = JsWall::from(wall);
 		walls.push(Wall::from_js(&wall, enable_height));
 	}
-	Pathfinder::initialize(walls, token_size, token_elevation)
+	let terrain = js_terrain.iter().map(|terrain| terrain.into()).collect();
 	Pathfinder::initialize(walls, terrain, token_size, token_elevation)
 }
 #[allow(dead_code)]
@@ -3,6 +3,7 @@ mod geometry;
 mod js_api;
 mod pathfinder;
 mod ptr_indexed_hash_set;
 mod util;
 use wasm_bindgen::prelude::*;
@@ -5,8 +5,8 @@ use wasm_bindgen::prelude::*;
 use rustc_hash::FxHashMap;
 use crate::{
-	geometry::{LineSegment, Point},
+	geometry::{LineSegment, Point, Rectangle},
-	js_api::{Wall, WallSenseType},
+	js_api::{distance_with_terrain, Terrain, TerrainShape, Wall, WallSenseType, log},
 	ptr_indexed_hash_set::PtrIndexedHashSet,
 };
@@ -84,7 +84,7 @@ impl NodeStorage {
 		self.regular_nodes.push(node);
 	}
-	fn initialize_edges(&mut self, node: &NodePtr, walls: &[LineSegment]) {
+	fn initialize_edges(&mut self, node: &NodePtr, walls: &[LineSegment], terrain: &[Rectangle]) {
 		if node.borrow().final_edge.is_none() {
 			let final_edge = self
 				.final_node
@@ -97,7 +97,11 @@ impl NodeStorage {
 				})
 				.map(|neighbor| Edge {
 					target: neighbor.clone(),
-					cost: node.borrow().point.distance_to(neighbor.borrow().point),
+					cost: Self::measure_distance(
 						node.borrow().point,
 						neighbor.borrow().point,
 						terrain,
 					),
 				});
 			node.borrow_mut().final_edge = Some(final_edge);
 		}
@@ -114,7 +118,8 @@ impl NodeStorage {
 			}
 			let neighbor_point = neighbor.borrow().point;
 			if !self.collides_with_wall(&LineSegment::new(point, neighbor_point), walls) {
-				let cost = point.distance_to(neighbor_point);
+				let cost =
 					Self::measure_distance(node.borrow().point, neighbor.borrow().point, terrain);
 				edges.push(Edge {
 					target: neighbor.clone(),
 					cost,
@@ -128,6 +133,15 @@ impl NodeStorage {
 		walls.iter().any(|wall| line.intersection(wall).is_some())
 	}
 	fn measure_distance(a: Point, b: Point, terrain: &[Rectangle]) -> f64 {
 		let segment = LineSegment::new(a, b);
 		if terrain.iter().any(|rect| segment.intersects_rect(rect)) {
 			distance_with_terrain(a, b)
 		} else {
 			a.distance_to(b)
 		}
 	}
 	pub fn cleanup_final_edges(&mut self) {
 		for node in &self.regular_nodes {
 			node.borrow_mut().final_edge = None;
@@ -145,35 +159,51 @@ pub struct Pathfinder {
 	pub nodes: NodeStorage,
 	#[wasm_bindgen(skip)]
 	pub walls: Vec<LineSegment>,
 	#[wasm_bindgen(skip)]
 	pub terrain: Vec<Rectangle>,
 }
 impl Pathfinder {
-	pub fn initialize<I>(walls: I, token_size: f64, token_elevation: f64) -> Self
+	pub fn initialize(
-	where
+		walls: Vec<Wall>,
-		I: IntoIterator<Item = Wall>,
+		terrain: Vec<Terrain>,
-	{
+		token_size: f64,
 		token_elevation: f64,
 	) -> Self {
 		log!("{:#?}", terrain);
 		let distance_from_walls = token_size / 2.0;
 		// TODO Place pathfinding nodes around terrain edges
 		let mut polygon_terrain = Vec::new();
 		let mut circle_terrain = Vec::new();
 		for terrain in &terrain {
 			match &terrain.shape {
 				TerrainShape::Polygon(polygon) => polygon_terrain.append(&mut polygon.clone()),
 				TerrainShape::Circle(circle) => circle_terrain.push(circle),
 			}
 		}
 		let mut walls = walls
 			.into_iter()
 			.filter(|wall| wall.move_type != WallSenseType::NONE)
 			.filter(|wall| !(wall.is_door() && wall.is_open()))
 			.filter(|wall| wall.height.contains(token_elevation))
 			.map(|wall| LineSegment::new(wall.p1, wall.p2))
 			.collect::<Vec<_>>();
 		// TODO Generate points around difficult terrain
 		let mut endpoints = FxHashMap::<Point, Vec<f64>>::default();
-		let mut line_segments = Vec::new();
+
-		for wall in walls {
+		for segments in walls.iter().chain(polygon_terrain.iter()) {
-			if wall.move_type == WallSenseType::NONE {
+			let x_diff = segments.p2.x - segments.p1.x;
-				continue;
+			let y_diff = segments.p2.y - segments.p1.y;
 			}
 			if wall.is_door() && wall.is_open() {
 				continue;
 			}
 			if !wall.height.contains(token_elevation) {
 				continue;
 			}
 			let x_diff = wall.p2.x - wall.p1.x;
 			let y_diff = wall.p2.y - wall.p1.y;
 			let p1_angle = y_diff.atan2(x_diff).rem_euclid(2.0 * PI);
 			let p2_angle = (p1_angle + PI).rem_euclid(2.0 * PI);
-			for (point, angle) in [(wall.p1, p1_angle), (wall.p2, p2_angle)] {
+			for (point, angle) in [(segments.p1, p1_angle), (segments.p2, p2_angle)] {
 				let angles = endpoints.entry(point).or_insert_with(Vec::new);
 				angles.push(angle);
 			}
 			line_segments.push(LineSegment::new(wall.p1, wall.p2));
 		}
 		endpoints
 			.values_mut()
@@ -196,19 +226,19 @@ impl Pathfinder {
 					point,
 					angle_between,
 					distance_from_walls,
-					&mut line_segments,
+					&mut walls,
 				));
 				nodes.push(calc_pathfinding_node(
 					point,
 					angle1 + 0.5 * PI,
 					distance_from_walls,
-					&mut line_segments,
+					&mut walls,
 				));
 				nodes.push(calc_pathfinding_node(
 					point,
 					angle2 - 0.5 * PI,
 					distance_from_walls,
-					&mut line_segments,
+					&mut walls,
 				));
 			}
 			let angle1 = angles.last().unwrap();
@@ -222,25 +252,46 @@ impl Pathfinder {
 				point,
 				angle_between,
 				distance_from_walls,
-				&mut line_segments,
+				&mut walls,
 			));
 			nodes.push(calc_pathfinding_node(
 				point,
 				angle1 + 0.5 * PI,
 				distance_from_walls,
-				&mut line_segments,
+				&mut walls,
 			));
 			nodes.push(calc_pathfinding_node(
 				point,
 				angle2 - 0.5 * PI,
 				distance_from_walls,
-				&mut line_segments,
+				&mut walls,
 			));
 		}
 		// TODO Check bounding box of circle terrain
 		for circle in circle_terrain {
 			let angle_step = f64::asin(token_size / 2.0 / circle.radius);
 			let mut angle = 0.0;
 			while angle < 2.0 * PI {
 				let point = Point {
 					x: circle.center.x + angle.cos() * circle.radius,
 					y: circle.center.y + angle.sin() * circle.radius,
 				};
 				nodes.push(calc_pathfinding_node(
 					point,
 					angle,
 					distance_from_walls,
 					&mut walls,
 				));
 				angle += angle_step;
 			}
 		}
 		// TODO Eliminating nodes close to each other may improve performance
 		Self {
 			nodes,
-			walls: line_segments,
+			walls,
 			terrain: terrain.iter().map(|terrain| terrain.bounding_box).collect(),
 		}
 	}
@@ -249,7 +300,7 @@ impl Pathfinder {
 		let mut nodes = self.nodes.clone();
 		nodes.final_node = Some(NodePtr::from(Node::new(from)));
 		let to_node = NodePtr::from(Node::new(to));
-		nodes.initialize_edges(&to_node, &self.walls);
+		nodes.initialize_edges(&to_node, &self.walls, &self.terrain);
 		let to = DiscoveredNode {
 			node: to_node,
 			cost: 0.0,
@@ -282,7 +333,7 @@ impl Pathfinder {
 				if previous_nodes.contains(neighbor) {
 					continue;
 				}
-				nodes.initialize_edges(neighbor, &self.walls);
+				nodes.initialize_edges(neighbor, &self.walls, &self.terrain);
 				// Add a flat 0.00001 cost per node to discurage creation of unnecessary waypoints
 				let cost = current_node.borrow().cost + edge.cost + 0.00001;
 				let discovered_neighbor = DiscoveredNode {
@@ -312,11 +363,11 @@ fn calc_pathfinding_node(
 	p: Point,
 	angle: f64,
 	distance_from_walls: f64,
-	line_segments: &mut Vec<LineSegment>,
+	walls: &mut Vec<LineSegment>,
 ) -> NodePtr {
 	let offset_x = angle.cos() * distance_from_walls;
 	let offset_y = angle.sin() * distance_from_walls;
-	line_segments.push(LineSegment::new(
+	walls.push(LineSegment::new(
 		p,
 		Point {
 			x: p.x + offset_x * 0.99,
@@ -0,0 +1,44 @@
 pub struct WindowIterator<I: Iterator> {
 	iterator: I,
 	previous: Option<I::Item>,
 }
 impl<I: Iterator> Iterator for WindowIterator<I>
 where
 	I::Item: Copy,
 {
 	type Item = (I::Item, I::Item);
 	fn next(&mut self) -> Option<Self::Item> {
 		if self.previous.is_none() {
 			self.previous = self.iterator.next();
 		}
 		let current = self.iterator.next();
 		if current.is_none() {
 			return None;
 		}
 		let current = current.unwrap();
 		let previous = self.previous.unwrap();
 		let result = (current, previous);
 		self.previous = Some(current);
 		Some(result)
 	}
 }
 pub trait Windows<T> {
 	fn windows(self) -> WindowIterator<Self>
 	where
 		Self: Sized + Iterator;
 }
 impl<I: Iterator> Windows<I> for I {
 	fn windows(self) -> WindowIterator<Self>
 	where
 		Self: Sized + Iterator,
 	{
 		WindowIterator {
 			iterator: self,
 			previous: None,
 		}
 	}
 }