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This commit is contained in:
Kim Ravn Hansen
2025-10-01 20:50:06 +02:00
parent 251e2e4fef
commit 6787489186
13 changed files with 509 additions and 211 deletions
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27
frontend/ascii_dungeon_crawler.html
View File

@@ -72,12 +72,11 @@
</head>
<body>
<div id="gameContainer">
<div id="threejs" style="border: 2px solid green; background-color: #222"></div>
<div id="minimap"></div>
<div id="compass">orientation</div>
<div id="viewport"></div>
<div id="compass">orientation</div>
<div id="minimap"></div>
<div id="threejs" style="border: 2px solid green; background-color: #222"></div>
<div id="mapInput">
←→↑↓
<br />
@@ -87,12 +86,12 @@
############################################################
## ################# ########################
## # ### ################# # ## ########################
## #S# ################# # ## ################
## #P# Z###############Z # ## ################ ::: P(north) Z(1) Z(1) ;; Comments
## # # # ################# # ## #### ####
## M # # ## # #### # # ####
## E # # ## # #### # # #### ::: E(Gnolls)
###### #################### ## #### # ####
###### #################### # ## # # #### ####
######M#################### # ####
######E#################### # #### ::: E(Goblins) These are comments
###### #################### ########## #### ####
###### #################### ########## # # #### # # ####
###### #################### ########## #### # # ####
@@ -100,23 +99,23 @@
###### #################### ############################
###### #################### # ############################
###### #################### # ############################
######M#################### # ############################
###### ## ########### ############################
###### ## ########### # # ############################
###### ## ########### ######## ############
######E#################### # ############################ ::: E(Minotaur)
###### ## ##### ## ############################
###### ## Z#### ## # # ############################ ::: Z(2) // Channel 2
###### ## ####Z ## ######## ############ ::: Z(2) // Channel 2
###### ## ## # ########### ## ######## ############
###### ## # # ############
######E## # #E ############ ::: E(Dwarf) ; E(Gelatinous_Cube)
###### # # # ############
######### # ## ########### # ######### # ############
######### # # ########### # ######### # # ############
######### ########### # ######### ############
########################### # ######### #### ###############
###########O############### # ######### #### ############### ::: O(1)
########################### # ######### #### ###############
########################### # ######### #### ###############
########################### # ######### #### ###############
########################### # #### ###############
######################### # #### # # # ######## ###
######################### # # ######## # ###
########################o # # ######## # ### ::: o:2
######################### # ##### # # # # ######## ###
######################### # # ###
######################### ####################### # ###

15
frontend/ascii_dungeon_crawler.js
View File

@@ -3,8 +3,6 @@ import { DefaultRendererOptions, FirstPersonRenderer } from "./ascii_first_perso
import { MiniMapRenderer } from "../ascii_minimap_renderer.js";
import { AsciiWindow } from "./ascii_window.js";
import { TileMap } from "./ascii_tile_map.js";
import eobWallUrl1 from "./eob1.png";
import gnollSpriteUrl from "./gnoll.png";
import { sprintf } from "sprintf-js";
class Player {
@@ -109,7 +107,7 @@ class DungeonCrawler {
/** @type {FirstPersonRenderer} */ firstPersonRenderer: null,
/** @type {MiniMapRenderer} */ miniMapRenderer: null,
firstPersonWindow: new AsciiWindow(document.getElementById("viewport"), 100, 45), // MAGIC CONSTANTS
firstPersonWindow: new AsciiWindow(document.getElementById("viewport"), 80, 45), // MAGIC CONSTANTS
minimapWindow: new AsciiWindow(document.getElementById("minimap"), 9, 9), // MAGIC CONSTANT
options: DefaultRendererOptions,
@@ -163,11 +161,10 @@ class DungeonCrawler {
this.rendering.miniMapRenderer = new MiniMapRenderer(this.rendering.minimapWindow, this.map);
const textureFilenames = [eobWallUrl1, gnollSpriteUrl];
this.rendering.firstPersonRenderer = new FirstPersonRenderer(
this.rendering.firstPersonWindow,
this.map,
textureFilenames,
["./eobBlueWall.png", "gnoll.png"], // textures
this.rendering.options,
);
this.rendering.firstPersonRenderer.onReady = () => {
@@ -216,15 +213,15 @@ class DungeonCrawler {
//
// We cant move into walls
if (this.map.isWall(targetV.x, targetV.y)) {
if (!this.map.isTraversable(targetV.x, targetV.y)) {
console.info(
"bumped into wall at %s (mypos: %s), direction=%d",
"bumped into an obstacle at %s (mypos: %s), direction=%d",
targetV,
this.player._posV,
this.player.angle,
);
// this.delay += 250; // MAGIC NUMBER: Pause for a tenth of a second after hitting a wall
// return false;
this.delay += 250; // MAGIC NUMBER: Pause for a bit after hitting an obstacle
return false;
}
this.animation = {

260
frontend/ascii_first_person_renderer.js
View File

@@ -1,20 +1,15 @@
import { TileMap, Tile } from "./ascii_tile_map.js";
import { TileMap } from "./ascii_tile_map.js";
import { Tile } from "./ascii_tile_types.js";
import { AsciiWindow } from "./ascii_window.js";
import * as THREE from "three";
import eobWallUrl1 from "./eob1.png";
import gnollSpriteUrl from "./gnoll.png";
import { Vector3 } from "three";
export const DefaultRendererOptions = {
viewDistance: 5,
fov: Math.PI / 3, // 60 degrees - good for spooky
wallChar: "#",
fov: 60, // degrees
floorColor: 0x654321,
floorChar: "f",
ceilingColor: 0x555555,
ceilingChar: "c",
fadeOutColor: 0x555555,
};
export class FirstPersonRenderer {
@@ -24,37 +19,64 @@ export class FirstPersonRenderer {
* @param {string[]} textureFilenames
*/
constructor(aWindow, map, textureFilenames, options) {
const w = 600;
const h = 400;
this.map = map;
this.window = aWindow;
this.widthPx = aWindow.htmlElement.clientWidth;
this.heightPx = aWindow.htmlElement.clientHeight;
this.asciiWidth = aWindow.width;
this.asciiHeight = aWindow.height;
this.aaspect = this.widthPx / this.heightPx;
this.fov = options.fov ?? DefaultRendererOptions.fov;
this.viewDistance = options.viewDistance ?? DefaultRendererOptions.viewDistance;
this.window = aWindow;
this.map = map;
this.floorColor = options.floorColor ?? DefaultRendererOptions.floorColor;
this.ceilingColor = options.ceilingColor ?? DefaultRendererOptions.ceilingColor;
this.scene = new THREE.Scene();
this.camera = new THREE.PerspectiveCamera((this.fov * 180) / Math.PI, w / h);
this.renderer = new THREE.WebGLRenderer({ antialias: false }); // Do not anti-alias, it could interfere with the conversion to ascii
this.mainCamera = new THREE.PerspectiveCamera(this.fov, this.aspect, 0.1, this.viewDistance);
this.renderer = new THREE.WebGLRenderer({
antialias: false,
preserveDrawingBuffer: true,
}); // Do not anti-alias, it could interfere with the conversion to ascii
//
// Render buffer
//
this.bufferCanvas = document.createElement("canvas");
this.bufferCanvas.width = this.asciiWidth;
this.bufferCanvas.height = this.asciiHeight;
this.bufferContext = this.bufferCanvas.getContext("2d");
//
// Fog, Fadeout & Background
//
this.scene.background = new THREE.Color(0);
this.scene.fog = new THREE.Fog(0, 0, this.viewDistance - 1);
this.scene.fog = new THREE.Fog(0, 0, this.viewDistance);
//
// Camera
//
this.camera.up.set(0, 0, 1); // Z-up instead of Y-up
this.mainCamera.up.set(0, 0, 1); // Z-up instead of Y-up
//
// Torch
//
this.torch = new THREE.PointLight(0xffffff, 0.9, this.viewDistance, 2); // https://threejs.org/docs/#api/en/lights/PointLight
this.torch.position.copy(this.camera.position);
this.torch = new THREE.PointLight(0xffffff, 2, this.viewDistance * 2, 1); // https://threejs.org/docs/#api/en/lights/PointLight
this.torch.position.copy(this.mainCamera.position);
this.scene.add(this.torch);
this.textures = [];
for (const textureFile of textureFilenames) {
const tex = new THREE.TextureLoader().load(textureFile, (t) => {
t.magFilter = THREE.NearestFilter; // no smoothing when scaling up
t.minFilter = THREE.NearestFilter; // no mipmaps / no smoothing when scaling down
t.generateMipmaps = false; // dont build mipmaps
});
this.textures.push(tex);
}
//
// Sprites
//
@@ -65,8 +87,7 @@ export class FirstPersonRenderer {
this.initMap();
//
this.renderer.setSize(w, h);
document.getElementById("threejs").appendChild(this.renderer.domElement);
this.renderer.setSize(this.asciiWidth * 1, this.asciiHeight * 1);
this.renderFrame();
}
@@ -74,15 +95,19 @@ export class FirstPersonRenderer {
const wallPlanes = [];
const sprites = [];
//
// -------------
// PARSE THE MAP
// -------------
/** @type {Map<number,Array} */
this.map.forEach((/** @type {Tile} */ tile, /** @type {number} */ x, /** @type {number} y */ y) => {
//
if (tile.isStartLocation) {
this.camera.position.set(x, y, 0);
this.camera.lookAt(x, y - 1, 0);
this.torch.position.copy(this.camera.position);
this.mainCamera.position.set(x, y, 0);
this.mainCamera.lookAt(x, y - 1, 0);
this.torch.position.copy(this.mainCamera.position);
console.log("Initial Camera Position:", this.camera.position);
console.log("Initial Camera Position:", this.mainCamera.position);
return;
}
@@ -102,7 +127,7 @@ export class FirstPersonRenderer {
return;
}
if (tile.isSprite) {
if (tile.isEncounter) {
console.log("Sprite", tile);
sprites.push([x, y, tile.textureId]);
return;
@@ -112,41 +137,48 @@ export class FirstPersonRenderer {
});
//
// Floor (XY plane at Z = -.5)
//
// ---------------------------
// FLOOR (XY PLANE AT Z = -.5)
// ---------------------------
const floorGeo = new THREE.PlaneGeometry(this.map.width, this.map.height);
const floorMat = new THREE.MeshStandardMaterial({ color: 0x964b00 /* side: THREE.DoubleSide */ });
const floorMat = new THREE.MeshStandardMaterial({
color: this.floorColor /* side: THREE.DoubleSide */,
});
const floor = new THREE.Mesh(floorGeo, floorMat);
floor.position.set(this.map.width / 2, this.map.height / 2, -0.5);
this.scene.add(floor);
//
// Ceiling (XY plane at Z = .5)
//
// -----------------------------
// CEILING (XY PLANE AT Z = .5)
// -----------------------------
const ceilingGeo = new THREE.PlaneGeometry(this.map.width, this.map.height);
const ceilingMat = new THREE.MeshStandardMaterial({ color: 0x333333, side: THREE.BackSide });
const ceilingMat = new THREE.MeshStandardMaterial({
color: this.ceilingColor,
side: THREE.BackSide,
});
const ceiling = new THREE.Mesh(ceilingGeo, ceilingMat);
ceiling.position.set(this.map.width / 2, this.map.height / 2, 0.5);
this.scene.add(ceiling);
//
// Walls
//
const wallTex = new THREE.TextureLoader().load(eobWallUrl1, (texture) => {
texture.magFilter = THREE.NearestFilter; // no smoothing when scaling up
texture.minFilter = THREE.NearestFilter; // no mipmaps / no smoothing when scaling down
texture.generateMipmaps = false; // dont build mipmaps
});
// ------
// WALLS
// ------
const wallGeo = new THREE.PlaneGeometry();
wallGeo.rotateX(Math.PI / 2); // Get the geometry-plane the right way up (z-up)
// wallGeo.rotateY(Math.PI); // rotate textures to be the right way up
wallGeo.rotateY(Math.PI); // rotate textures to be the right way up
const instancedMesh = new THREE.InstancedMesh(
wallGeo,
new THREE.MeshStandardMaterial({ map: wallTex }),
new THREE.MeshStandardMaterial({ map: this.textures[0] }),
wallPlanes.length,
);
instancedMesh.userData.pastelMaterial = new THREE.MeshBasicMaterial({
color: 0xffffff,
});
instancedMesh.userData.parimaryMaterial = instancedMesh.material;
this.scene.add(instancedMesh);
// Temp objects for generating matrices
@@ -162,29 +194,19 @@ export class FirstPersonRenderer {
instancedMesh.instanceMatrix.needsUpdate = true;
//
// Sprites
// -------
// SPRITES
// -------
//
// Load a sprite texture
const tex = new THREE.TextureLoader().load(gnollSpriteUrl, (t) => {
t.magFilter = THREE.NearestFilter; // pixel-art crisp
t.minFilter = THREE.NearestFilter;
t.generateMipmaps = false;
t.wrapS = THREE.RepeatWrapping;
t.wrapT = THREE.RepeatWrapping;
t.repeat.set(1, 1);
});
const spriteMat = new THREE.SpriteMaterial({ map: tex, transparent: true });
for (const [x, y, textureId] of sprites) {
// TODO: only one material per sprite type
const spriteMat = new THREE.SpriteMaterial({
map: this.textures[textureId],
transparent: true,
});
const sprite = new THREE.Sprite(spriteMat);
sprite.position.set(
x,
y,
0, // z (stand on floor)
);
sprite.position.set(x, y, 0);
sprite.userData.mapLocation = new Vector3(x, y, 0); // The location (in tilemap coordinates) of this sprite
this.sprites.push(sprite);
this.scene.add(sprite);
console.log({ x, y, textureId });
@@ -192,23 +214,115 @@ export class FirstPersonRenderer {
}
renderFrame(posX, posY, dirAngle, commit = true) {
this.renderer.render(this.scene, this.camera);
const lookAtV = new THREE.Vector3(1, 0, 0);
lookAtV
.applyAxisAngle(new THREE.Vector3(0, 0, 1), dirAngle)
.normalize()
.add(this.camera.position);
//
const posV = new Vector3(posX, posY, 0);
this.camera.position.x = posX;
this.camera.position.y = posY;
//
// -------------------------------
// Camera Position and Orientation
// -------------------------------
//
// Direction we're looking
const lookDirV = new Vector3(1, 0, 0)
.applyAxisAngle(new Vector3(0, 0, 1), dirAngle)
.setZ(0)
.normalize();
this.torch.position.copy(this.camera.position);
this.torch.position.z += 0.25;
this.camera.lookAt(lookAtV);
//
// The Point we're looking at.
//
const lookAtV = lookDirV.clone().add(posV);
lookAtV.z = 0;
this.mainCamera.position.copy(posV); // Move the camera
this.mainCamera.lookAt(lookAtV); // Rotate the camera
// -----
// TORCH
// -----
//
// The torch should hover right above the camera
this.torch.position.set(posV.x, posV.y, posV.z + 0.25);
// -------
// SPRITES
// -------
//
this.sprites.forEach((sprite) => {
//
// The tilemap position (vector) of the sprite
/** @type {Vector3} */
const spriteCenterV = sprite.userData.mapLocation;
//
// Direction from sprite to camera
const dir = new Vector3().subVectors(spriteCenterV, posV);
const len = dir.length();
//
if (len > this.viewDistance) {
// Sprite is out of range, do nothing
return;
}
if (Math.abs(dir.x) > 1e-6 && Math.abs(dir.y) > 1e-6) {
// Sprite is not in a direct cardinal line to us, do nothing
return;
}
sprite.position.copy(spriteCenterV).addScaledVector(lookDirV, -0.5);
});
performance.mark("scene_render_start");
this.renderer.render(this.scene, this.mainCamera);
performance.mark("scene_render_end");
performance.measure("3D Scene Rendering", "scene_render_start", "scene_render_end");
//
//
// ----------------
// ASCII Conversion
// ----------------
//
performance.mark("asciification_start");
const gl = this.renderer.getContext();
const width = this.renderer.domElement.width;
const height = this.renderer.domElement.height;
const pixels = new Uint8Array(width * height * 4);
gl.readPixels(0, 0, width, height, gl.RGBA, gl.UNSIGNED_BYTE, pixels);
let idx = 0;
for (let y = height - 1; y >= 0; y--) {
for (let x = 0; x < width; x++) {
const r = pixels[idx];
const g = pixels[idx + 1];
const b = pixels[idx + 2];
const cssColor =
"#" + //
r.toString(16).padStart(2, "0") +
g.toString(16).padStart(2, "0") +
b.toString(16).padStart(2, "0");
this.window.put(x, y, "#", cssColor);
idx += 4;
}
}
performance.mark("asciification_end");
performance.measure(
"Asciification", // The name for our measurement
"asciification_start", // The starting mark
"asciification_end", // The ending mark
);
//
if (commit) {
performance.mark("dom_commit_start");
this.window.commitToDOM();
performance.mark("dom_commit_end");
performance.measure("DOM Commit", "dom_commit_start", "dom_commit_end");
}
}
}

141
frontend/ascii_tile_map.js
View File

@@ -1,129 +1,40 @@
import { FunctionCallParser } from "../utils/callParser.js";
import { Vector2i, Orientation } from "./ascii_types.js";
import { AsciiWindow } from "./ascii_window.js";
export class Tile {
/** @type {string} How should this tile be rendered on the minimap.*/
minimapChar = " ";
/** @type {string} How should this tile be rendered on the minimap.*/
minimapColor = "#fff";
/** @type {boolean} Should this be rendered as a wall? */
isWall = false;
/** @type {boolean} is this tile occupied by a sprite? */
isSprite = false;
/** @type {boolean} Can the player walk here? */
traversable = true;
/** @type {boolean} Is this where they player starts? */
isStartLocation = false;
/** @type {boolean} Is this where they player starts? */
textureId = 0;
/** @type {Tile} options */
constructor(options) {
for (let [k, v] of Object.entries(options)) {
if (this[k] !== undefined) {
this[k] = v;
}
}
}
get collision() {
return this.isWall || this.isSprite;
}
}
export const defaultLegend = Object.freeze({
//
// "" is the Unknown Tile - if we encounter a tile that we don't know how to parse,
// the it will be noted here as the empty string
"": new Tile({
minimapChar: " ",
traversable: true,
isWall: false,
}),
//
// default floor
" ": new Tile({
minimapChar: " ",
traversable: true,
isWall: false,
}),
//
// Default wall
"#": new Tile({
minimapChar: "#",
traversable: false,
isWall: true,
textureId: 0,
}),
"M": new Tile({
textureId: 1,
minimapChar: "M",
minimapColor: "#f00",
traversable: false,
isWall: false,
isSprite: true,
}),
//
//secret door (looks like wall, but is traversable)
"Ω": new Tile({
minimapChar: "#",
traversable: true,
isWall: true,
}),
//
// where the player starts
"S": new Tile({
minimapChar: "S", // "Š",
traversable: true,
isWall: false,
isStartLocation: true,
}),
});
export class TileMap {
/**
* @param {string} str
* @param {Record<string,Tile} legend
*/
static fromText(str, legend = defaultLegend) {
static fromText(str) {
const lines = str.split("\n");
const tiles = [];
const options = [];
const optionsParser = new FunctionCallParser();
const longestLine = lines.reduce((acc, line) => Math.max(acc, line.length), 0);
const tiles = new Array(lines.length).fill().map(() => Array(longestLine));
let mapWidth;
lines.forEach((line, y) => {
line = line.padEnd(longestLine, "#");
tiles[y] = [];
options[y] = [];
line.split("").forEach((char, x) => {
let tile = legend[char];
// Everything before ":::" is map tiles, and everything after is options for the tiles on that line
let [tileStr, optionStr] = line.split(/\s*:::\s*/);
// unknown char?
// check fallback tile.
if (tile === undefined) {
tile = legend[""];
// Infer the width of the map from the first line
if (!mapWidth) {
mapWidth = tileStr.length;
}
// still no tile - i.e. no back fallback tile?
if (tile === undefined) {
throw new Error("Dont know how to handle this character: " + char);
}
optionStr = optionStr.split(/\s*\/\//)[0];
options[y] = optionStr ? optionsParser.parse(optionStr) : [];
// insert tile into map.
tiles[y][x] = tile;
});
// STFU Linda
console.log(tileStr, optionStr, y);
});
return new TileMap(longestLine, lines.length, tiles);
// return new TileMap(longestLine, lines.length, tiles, options);
}
tileIdx(x, y) {
@@ -184,9 +95,25 @@ export class TileMap {
return true;
}
if (!this.tiles[y][x]) {
x++;
return true;
}
return this.tiles[y][x].isWall;
}
isTraversable(x, y) {
x |= 0;
y |= 0;
if (x < 0 || x >= this.width || y < 0 || y >= this.height) {
return true;
}
return this.tiles[y][x].isTraversable;
}
findFirst(criteria) {
return this.forEach((tile, x, y) => {
for (let k in criteria) {

147
frontend/ascii_tile_types.js Executable file
View File

@@ -0,0 +1,147 @@
import { Orientation } from "./ascii_types";
export class Tile {
/** @type {string} How should this tile be rendered on the minimap.*/
minimapChar;
/** @type {string} How should this tile be rendered on the minimap.*/
minimapColor;
/** @type {boolean} Should this be rendered as a wall? */
isWall;
/** @type {boolean} Can the player walk here? */
isTraversable;
/** @type {boolean} is this tile occupied by an encounter? */
isEncounter;
/** @type {boolean} Is this where they player starts? */
isStartLocation;
/** @type {boolean} Is this a two-way portal entry/exit */
isTwoWayPortal;
/** @type {boolean} Is this a one-way portal entry */
isOneWayPortalEntry;
/** @type {boolean} Is this a one-way portal exit */
isOneWayPortalExit;
/** @type {boolean} Has the secret properties of this tile been uncovered? */
isUncovered;
/** @type {string|number} The portals "channel" - each tile in a portal pair must have the same channel */
channel;
/** @type {number|string} id of texture to use */
textureId;
/** @type {number|string} id the encounter located on this tile */
encounterId;
/** @type {boolean} Can/does this tile wander around on empty tiles? */
isWandering;
/** @type {Orientation} */
orientation;
/** @param {Tile} options */
constructor(options) {
for (let [k, v] of Object.entries(options)) {
if (this[k] !== undefined) {
this[k] = v;
}
}
}
/** @param {Tile} options */
static fromChar(char, options = {}) {
switch (char) {
case " ":
return new FloorTile();
case "#":
return new WallTile();
case "P":
return new PlayerStartTile(options.orientation);
case "E":
return new EncounterTile(options.textureId, options.encounterId);
case "O":
return new SecretOneWayPortalEntryTile(options.channel);
case "o":
return new SecretOneWayPortalExitTile(options.channel);
case "Z":
return new SecretTwoWayPortalTile(options.channel);
default:
throw new Error("Unknown character: " + char);
}
}
clone() {
return new this.constructor(this);
}
}
export class FloorTile extends Tile {
isTraversable = true;
minimapChar = " ";
internalMapChar = " ";
}
export class PlayerStartTile extends Tile {
isTraversable = true;
isStartLocation = true;
MinimapChar = "▤"; // stairs
orientation = Orientation.NORTH;
/** @param {Orientation} orientation */
constructor(orientation) {
super({ orientation });
}
}
export class WallTile extends Tile {
textureId = 0;
isTraversable = false;
isWall = true;
minimapChar = "#";
internalMapChar = "#";
}
export class EncounterTile extends Tile {
isEncounter = true;
constructor(textureId, encounterId) {
super({ textureId, encounterId });
}
}
/**
* One-way portal entries look exactly like walls. You need to
* probe for them, or otherwise unlock their location.
* You can walk into them, and then the magic happens
*/
export class SecretOneWayPortalEntryTile extends Tile {
textureId = 0;
isWall = true;
isTraversable = true; // we can walk in to it?
isOneWayPortalEntry = true;
internalMapChar = "O";
minimapChar = "#"; // Change char when the portal has been uncovered
isUncovered = false;
constructor(channel) {
super({ channel });
}
}
export class SecretOneWayPortalExitTile extends Tile {
isTraversable = true;
isOneWayPortalExit = true;
internalMapChar = "o";
minimapChar = " "; // Change char when the portal has been uncovered
isUncovered = false;
constructor(channel) {
super({ channel });
}
}
export class SecretTwoWayPortalTile extends Tile {
textureId = 0;
isWall = true;
isTraversable = true;
isTwoWayPortalEntry = true;
internalMapChar = "0";
minimapChar = "#"; // Change char when the portal has been uncovered
isUncovered = false;
constructor(channel) {
super({ channel });
}
}

5
frontend/ascii_types.js
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@@ -2,8 +2,7 @@ export const PI_OVER_TWO = Math.PI / 2;
/**
* Enum Cardinal Direction (east north west south)
* @constant
* @readonly
* @constant @readonly @enum {number}
*/
export const Orientation = {
/** @constant @readonly @type {number} Going east increases X */
@@ -18,7 +17,7 @@ export const Orientation = {
/**
* Enum Relative Direction (forward, left, right, backwards)
* @readonly
* @constant @readonly @enum {number}
*/
export const RelativeMovement = {
FORWARD: 0,

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frontend/eob1.png → frontend/eobBlueWall.png Normal file → Executable file
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26
node_modules/.vite/deps/_metadata.json generated vendored
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@@ -2,28 +2,46 @@
"hash": "5eac6a41",
"configHash": "86a557ed",
"lockfileHash": "3ceab950",
"browserHash": "20105502",
"browserHash": "1d3df51c",
"optimized": {
"sprintf-js": {
"src": "../../sprintf-js/src/sprintf.js",
"file": "sprintf-js.js",
"fileHash": "089e5f0c",
"fileHash": "cfe4c24f",
"needsInterop": true
},
"three": {
"src": "../../three/build/three.module.js",
"file": "three.js",
"fileHash": "22510eaa",
"fileHash": "7e792144",
"needsInterop": false
},
"three/src/math/MathUtils.js": {
"src": "../../three/src/math/MathUtils.js",
"file": "three_src_math_MathUtils__js.js",
"fileHash": "f611651c",
"fileHash": "6afcef1b",
"needsInterop": false
},
"three/tsl": {
"src": "../../three/build/three.tsl.js",
"file": "three_tsl.js",
"fileHash": "40fd901e",
"needsInterop": false
},
"three/webgpu": {
"src": "../../three/build/three.webgpu.js",
"file": "three_webgpu.js",
"fileHash": "0d6a1d7c",
"needsInterop": false
}
},
"chunks": {
"chunk-5FFPRNLG": {
"file": "chunk-5FFPRNLG.js"
},
"chunk-GHUIN7QU": {
"file": "chunk-GHUIN7QU.js"
},
"chunk-BUSYA2B4": {
"file": "chunk-BUSYA2B4.js"
}

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test.js Executable file
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97
utils/callParser.js Executable file
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@@ -0,0 +1,97 @@
export class FunctionCallParser {
/**
* @typedef {{name: string, args: Array<number|string|boolean|null>}} CallType
*/
/**
*
* @param {string} input
*
* @returns {CallType[]}
*/
parse(input) {
const calls = [];
const pattern = /(\w+)\s*\(([^)]*)\)/g;
let match;
while ((match = pattern.exec(input)) !== null) {
const name = match[1];
const argsStr = match[2].trim();
const args = this.parseArguments(argsStr);
calls.push({ name, args });
}
return calls;
}
/** @protected */
parseArguments(argsStr) {
if (!argsStr) return [];
const args = [];
const tokens = this.tokenize(argsStr);
for (const token of tokens) {
args.push(this.parseValue(token));
}
return args;
}
/** @protected */
tokenize(argsStr) {
const tokens = [];
let current = "";
let depth = 0;
for (let i = 0; i < argsStr.length; i++) {
const char = argsStr[i];
if (char === "(" || char === "[" || char === "{") {
depth++;
current += char;
} else if (char === ")" || char === "]" || char === "}") {
depth--;
current += char;
} else if (char === "," && depth === 0) {
if (current.trim()) {
tokens.push(current.trim());
}
current = "";
} else {
current += char;
}
}
if (current.trim()) {
tokens.push(current.trim());
}
return tokens;
}
/** @protected */
parseValue(str) {
str = str.trim();
// Try to parse as number
if (/^-?\d+(\.\d+)?$/.test(str)) {
return parseFloat(str);
}
// Boolean
if (str === "true") return true;
if (str === "false") return false;
// Null/undefined
if (str === "null") return null;
// Otherwise treat as string (remove quotes if present)
if ((str.startsWith('"') && str.endsWith('"')) || (str.startsWith("'") && str.endsWith("'"))) {
return str.slice(1, -1);
}
return str;
}
}