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22 Commits
2493d37c7a ... master

Author SHA1 Message Date
Kyle Banicevic
b0dd090a60 Multidirectional map generation 2026-02-07 15:24:11 +11:00
Kyle Banicevic
88017add92 Fixed zooming bug black lines again 2026-02-07 14:36:18 +11:00
Kyle Banicevic
72c4251fc4 Added more side rooms, 8-10 per level 2026-02-07 14:30:53 +11:00
Kyle Banicevic
319ce20b6a fixed vertical black line bug 2026-02-07 14:08:17 +11:00
Kyle Banicevic
72d0f5d576 Fixed door saying open bugs 2026-02-07 13:34:12 +11:00
Kyle Banicevic
da544438e1 Fixed bug with vision when standing in doorway 2026-02-07 13:04:49 +11:00
Kyle Banicevic
02f850da35 Fixed coprse bug 2026-02-07 12:54:25 +11:00
Kyle Banicevic
4b50e341a7 Half changes to switch to exit level, Ran out of credits, re added enemies 2026-01-31 14:56:53 +11:00
Kyle Banicevic
f6fc057e4f Double level size, fixed skitzo track path 2026-01-31 14:17:08 +11:00
Kyle Banicevic
43b33733e9 Added rail tracks, cart and camera movement with arrow keys, removed enemies... 4 now 2026-01-31 13:47:34 +11:00
Kyle Banicevic
b18e2d08ba Character sprite switching - directionality - added dragon head 2026-01-31 10:58:12 +11:00
Kyle Banicevic
58b3726d21 Merge branch 'master' of https://gitea.peterstockings.com/peterstockings/rogue 2026-01-30 17:49:25 +11:00
Kyle Banicevic
41909fd8e6 Added flamethrower with buring effects 2026-01-30 17:49:23 +11:00
Peter Stockings
3a656c46fc Fix broken tests 2026-01-28 20:18:44 +11:00
Kyle Banicevic
c06823e08b Provided WASD movement 2026-01-28 19:07:22 +11:00
Kyle Banicevic
80e82f68a0 changed visual movement speed to be slower and made diagonal movement with arrow keys work 2026-01-28 18:59:35 +11:00
Kyle Banicevic
f01d8de15c Auto reload last reloadble weapon when reload is triggered 2026-01-28 18:32:52 +11:00
Kyle Banicevic
90aebc892a Make it so you cant shoot yourself 2026-01-28 18:19:46 +11:00
Kyle Banicevic
5d33d0e660 Added pregress bar for reloading 2026-01-28 18:06:42 +11:00
Kyle Banicevic
fc18008656 Add Billys assets (WIP) 2026-01-28 17:38:46 +11:00
Peter Stockings
c105719e4a Remove use of any in PlayerInputHandler 2026-01-27 20:55:03 +11:00
Peter Stockings
34554aa051 refactor game scene 2026-01-27 20:38:48 +11:00
60 changed files with 4414 additions and 2611 deletions
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45
src/core/config/GameConfig.ts
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@@ -43,8 +43,8 @@ export const GAME_CONFIG = {
}, },
map: { map: {
width: 60, width: 120,
height: 40, height: 80,
minRooms: 8, minRooms: 8,
maxRooms: 13, maxRooms: 13,
roomMinWidth: 5, roomMinWidth: 5,
@@ -73,10 +73,16 @@ export const GAME_CONFIG = {
}, },
enemyScaling: { enemyScaling: {
baseCount: 3, baseCount: 15,
baseCountPerFloor: 3, baseCountPerFloor: 5,
hpPerFloor: 5, hpPerFloor: 5,
attackPerTwoFloors: 1, attackPerTwoFloors: 1,
expMultiplier: 1.2
},
trapScaling: {
baseCount: 0,
baseCountPerFloor: 0.5
}, },
leveling: { leveling: {
@@ -97,9 +103,9 @@ export const GAME_CONFIG = {
rendering: { rendering: {
tileSize: 16, tileSize: 16,
cameraZoom: 2, cameraZoom: 2,
minZoom: 0.5, minZoom: 1,
maxZoom: 4, maxZoom: 4,
zoomStep: 0.1, zoomStep: 1,
wallColor: 0x2b2b2b, wallColor: 0x2b2b2b,
floorColor: 0x161616, floorColor: 0x161616,
exitColor: 0xffd166, exitColor: 0xffd166,
@@ -130,7 +136,8 @@ export const GAME_CONFIG = {
horizontal: 54, horizontal: 54,
vertical: 55, vertical: 55,
turning: 56 turning: 56
} },
moveDuration: 62 // Visual duration for movement in ms
}, },
ui: { ui: {
@@ -151,7 +158,15 @@ export const GAME_CONFIG = {
gameplay: { gameplay: {
energyThreshold: 100, energyThreshold: 100,
actionCost: 100 actionCost: 100,
ceramicDragonHead: {
range: 4,
initialDamage: 7,
burnDamage: 3,
burnDuration: 5,
rechargeTurns: 20,
maxCharges: 3
}
}, },
assets: { assets: {
@@ -166,8 +181,20 @@ export const GAME_CONFIG = {
], ],
images: [ images: [
{ key: "splash_bg", path: "assets/ui/splash_bg.png" }, { key: "splash_bg", path: "assets/ui/splash_bg.png" },
{ key: "character_outline", path: "assets/ui/character_outline.png" } { key: "character_outline", path: "assets/ui/character_outline.png" },
{ key: "ceramic_dragon_head", path: "assets/sprites/items/ceramic_dragon_head.png" },
{ key: "PriestessNorth", path: "assets/sprites/priestess/PriestessNorth.png" },
{ key: "PriestessSouth", path: "assets/sprites/priestess/PriestessSouth.png" },
{ key: "PriestessEast", path: "assets/sprites/priestess/PriestessEast.png" },
{ key: "PriestessWest", path: "assets/sprites/priestess/PriestessWest.png" },
{ key: "mine_cart", path: "assets/sprites/items/mine_cart.png" },
{ key: "track_straight", path: "assets/sprites/items/track_straight.png" },
{ key: "track_corner", path: "assets/sprites/items/track_corner.png" },
{ key: "track_vertical", path: "assets/sprites/items/track_vertical.png" },
{ key: "track_switch", path: "assets/sprites/items/track_switch.png" }
] ]
}, },
animations: [ animations: [

24
src/core/config/Items.ts
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@@ -3,8 +3,10 @@ import type {
MeleeWeaponItem, MeleeWeaponItem,
RangedWeaponItem, RangedWeaponItem,
ArmourItem, ArmourItem,
AmmoItem AmmoItem,
CeramicDragonHeadItem
} from "../types"; } from "../types";
import { GAME_CONFIG } from "../config/GameConfig";
// ============================================================================= // =============================================================================
// Per-Type Template Lists (Immutable) // Per-Type Template Lists (Immutable)
@@ -244,6 +246,24 @@ export function createUpgradeScroll(quantity = 1): ConsumableItem {
}; };
} }
export function createCeramicDragonHead(): CeramicDragonHeadItem {
const config = GAME_CONFIG.gameplay.ceramicDragonHead;
return {
id: "ceramic_dragon_head",
name: "Ceramic Dragon Head",
type: "Weapon",
weaponType: "ceramic_dragon_head",
textureKey: "ceramic_dragon_head",
spriteIndex: 0,
charges: config.maxCharges,
maxCharges: config.maxCharges,
lastRechargeTurn: 0,
stats: {
attack: config.initialDamage,
range: config.range,
},
};
}
// Legacy export for backward compatibility during migration // Legacy export for backward compatibility during migration
export const ITEMS = ALL_TEMPLATES; export const ITEMS = ALL_TEMPLATES;

12
src/core/terrain.ts
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@@ -8,9 +8,13 @@ export const TileType = {
EXIT: 8, EXIT: 8,
WATER: 63, // Unused but kept for safety/legacy WATER: 63, // Unused but kept for safety/legacy
DOOR_CLOSED: 5, DOOR_CLOSED: 5,
DOOR_OPEN: 6 DOOR_OPEN: 6,
TRACK: 30, // Restored to 30 to fix duplicate key error
SWITCH_OFF: 31,
SWITCH_ON: 32
} as const; } as const;
export type TileType = typeof TileType[keyof typeof TileType]; export type TileType = typeof TileType[keyof typeof TileType];
export interface TileBehavior { export interface TileBehavior {
@@ -32,9 +36,13 @@ export const TILE_DEFINITIONS: Record<number, TileBehavior> = {
[TileType.EXIT]: { id: TileType.EXIT, isBlocking: false, isDestructible: false }, [TileType.EXIT]: { id: TileType.EXIT, isBlocking: false, isDestructible: false },
[TileType.WATER]: { id: TileType.WATER, isBlocking: true, isDestructible: false }, [TileType.WATER]: { id: TileType.WATER, isBlocking: true, isDestructible: false },
[TileType.DOOR_CLOSED]: { id: TileType.DOOR_CLOSED, isBlocking: false, isDestructible: true, isDestructibleByWalk: true, blocksVision: true, destructsTo: TileType.DOOR_OPEN }, [TileType.DOOR_CLOSED]: { id: TileType.DOOR_CLOSED, isBlocking: false, isDestructible: true, isDestructibleByWalk: true, blocksVision: true, destructsTo: TileType.DOOR_OPEN },
[TileType.DOOR_OPEN]: { id: TileType.DOOR_OPEN, isBlocking: false, isDestructible: true, isDestructibleByWalk: true, blocksVision: false, destructsTo: TileType.DOOR_CLOSED } [TileType.DOOR_OPEN]: { id: TileType.DOOR_OPEN, isBlocking: false, isDestructible: true, isDestructibleByWalk: true, blocksVision: false, destructsTo: TileType.DOOR_CLOSED },
[TileType.TRACK]: { id: TileType.TRACK, isBlocking: false, isDestructible: false },
[TileType.SWITCH_OFF]: { id: TileType.SWITCH_OFF, isBlocking: true, isDestructible: false },
[TileType.SWITCH_ON]: { id: TileType.SWITCH_ON, isBlocking: true, isDestructible: false }
}; };
export function isBlocking(tile: number): boolean { export function isBlocking(tile: number): boolean {
const def = TILE_DEFINITIONS[tile]; const def = TILE_DEFINITIONS[tile];
return def ? def.isBlocking : false; return def ? def.isBlocking : false;

21
src/core/types.ts
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@@ -27,7 +27,8 @@ export type SimEvent =
| { type: "orb-spawned"; orbId: EntityId; x: number; y: number } | { type: "orb-spawned"; orbId: EntityId; x: number; y: number }
| { type: "leveled-up"; actorId: EntityId; level: number; x: number; y: number } | { type: "leveled-up"; actorId: EntityId; level: number; x: number; y: number }
| { type: "enemy-alerted"; enemyId: EntityId; x: number; y: number } | { type: "enemy-alerted"; enemyId: EntityId; x: number; y: number }
| { type: "move-blocked"; actorId: EntityId; x: number; y: number }; | { type: "move-blocked"; actorId: EntityId; x: number; y: number }
| { type: "mission-complete" };
export type Stats = { export type Stats = {
@@ -112,7 +113,20 @@ export interface RangedWeaponItem extends BaseItem {
}; };
} }
export type WeaponItem = MeleeWeaponItem | RangedWeaponItem; export interface CeramicDragonHeadItem extends BaseItem {
type: "Weapon";
weaponType: "ceramic_dragon_head";
charges: number;
maxCharges: number;
lastRechargeTurn: number;
stats: {
attack: number;
range: number;
};
}
export type WeaponItem = MeleeWeaponItem | RangedWeaponItem | CeramicDragonHeadItem;
export interface ArmourItem extends BaseItem { export interface ArmourItem extends BaseItem {
type: "BodyArmour" | "Helmet" | "Gloves" | "Boots"; type: "BodyArmour" | "Helmet" | "Gloves" | "Boots";
@@ -163,6 +177,8 @@ export type Inventory = {
export type RunState = { export type RunState = {
stats: Stats; stats: Stats;
inventory: Inventory; inventory: Inventory;
seed: number;
lastReloadableWeaponId?: string | null;
}; };
export interface BaseActor { export interface BaseActor {
@@ -208,6 +224,7 @@ export type World = {
height: number; height: number;
tiles: Tile[]; tiles: Tile[];
exit: Vec2; exit: Vec2;
trackPath: Vec2[];
}; };
export interface UIUpdatePayload { export interface UIUpdatePayload {

126
src/engine/__tests__/DoorWalkthrough.test.ts Normal file
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@@ -0,0 +1,126 @@
import { describe, it, expect, beforeEach } from 'vitest';
import { applyAction } from '../simulation/simulation';
import { type World, type Actor, type EntityId } from '../../core/types';
import { EntityAccessor } from '../EntityAccessor';
import { ECSWorld } from '../ecs/World';
import { TileType } from '../../core/terrain';
const createTestWorld = (): World => {
return {
width: 10,
height: 10,
tiles: new Array(100).fill(TileType.EMPTY),
exit: { x: 9, y: 9 },
trackPath: []
};
};
describe('Multi-step Door Walkthrough Bug', () => {
let ecsWorld: ECSWorld;
let world: World;
beforeEach(() => {
ecsWorld = new ECSWorld();
world = createTestWorld();
});
it('door should close after player walks through and moves away', () => {
const playerId = 1 as EntityId;
const player: Actor = {
id: playerId, category: "combatant", isPlayer: true, type: "player", pos: { x: 3, y: 3 }, speed: 100, stats: { hp: 10, maxHp: 10 } as any, energy: 0
} as any;
ecsWorld.addComponent(playerId, "position", player.pos);
ecsWorld.addComponent(playerId, "player", {});
ecsWorld.addComponent(playerId, "stats", { hp: 10, maxHp: 10 } as any);
ecsWorld.addComponent(playerId, "actorType", { type: "player" });
ecsWorld.addComponent(playerId, "energy", { current: 0, speed: 100 });
const accessor = new EntityAccessor(world, playerId, ecsWorld);
// Place a closed door at (4,3)
const doorIdx = 3 * 10 + 4;
world.tiles[doorIdx] = TileType.DOOR_CLOSED;
// 1. Move onto the door
console.log("Step 1: Moving onto door at (4,3)");
applyAction(world, playerId, { type: "move", dx: 1, dy: 0 }, accessor);
expect(player.pos).toEqual({ x: 4, y: 3 });
expect(world.tiles[doorIdx]).toBe(TileType.DOOR_OPEN);
// 2. Move off the door to (5,3)
console.log("Step 2: Moving off door to (5,3)");
applyAction(world, playerId, { type: "move", dx: 1, dy: 0 }, accessor);
expect(player.pos).toEqual({ x: 5, y: 3 });
// This is where it's reported to stay open sometimes
console.log("Door tile state after Step 2:", world.tiles[doorIdx]);
expect(world.tiles[doorIdx]).toBe(TileType.DOOR_CLOSED);
// 3. Move further away to (6,3)
console.log("Step 3: Moving further away to (6,3)");
applyAction(world, playerId, { type: "move", dx: 1, dy: 0 }, accessor);
expect(player.pos).toEqual({ x: 6, y: 3 });
expect(world.tiles[doorIdx]).toBe(TileType.DOOR_CLOSED);
});
it('door should close after player walks through it diagonally', () => {
const playerId = 1 as EntityId;
const player: Actor = {
id: playerId, category: "combatant", isPlayer: true, type: "player", pos: { x: 3, y: 3 }, speed: 100, stats: { hp: 10, maxHp: 10 } as any, energy: 0
} as any;
ecsWorld.addComponent(playerId, "position", player.pos);
ecsWorld.addComponent(playerId, "player", {});
ecsWorld.addComponent(playerId, "stats", { hp: 10, maxHp: 10 } as any);
ecsWorld.addComponent(playerId, "actorType", { type: "player" });
ecsWorld.addComponent(playerId, "energy", { current: 0, speed: 100 });
const accessor = new EntityAccessor(world, playerId, ecsWorld);
// Place a closed door at (4,4)
const doorIdx = 4 * 10 + 4;
world.tiles[doorIdx] = TileType.DOOR_CLOSED;
// 1. Move onto the door diagonally
applyAction(world, playerId, { type: "move", dx: 1, dy: 1 }, accessor);
expect(player.pos).toEqual({ x: 4, y: 4 });
expect(world.tiles[doorIdx]).toBe(TileType.DOOR_OPEN);
// 2. Move off the door diagonally to (5,5)
applyAction(world, playerId, { type: "move", dx: 1, dy: 1 }, accessor);
expect(player.pos).toEqual({ x: 5, y: 5 });
expect(world.tiles[doorIdx]).toBe(TileType.DOOR_CLOSED);
});
it('door should stay open while player is standing on it (wait action)', () => {
const playerId = 1 as EntityId;
const player: Actor = {
id: playerId, category: "combatant", isPlayer: true, type: "player", pos: { x: 3, y: 3 }, speed: 100, stats: { hp: 10, maxHp: 10 } as any, energy: 0
} as any;
ecsWorld.addComponent(playerId, "position", player.pos);
ecsWorld.addComponent(playerId, "player", {});
ecsWorld.addComponent(playerId, "stats", { hp: 10, maxHp: 10 } as any);
ecsWorld.addComponent(playerId, "actorType", { type: "player" });
ecsWorld.addComponent(playerId, "energy", { current: 0, speed: 100 });
const accessor = new EntityAccessor(world, playerId, ecsWorld);
// Place a closed door at (4,3)
const doorIdx = 3 * 10 + 4;
world.tiles[doorIdx] = TileType.DOOR_CLOSED;
// 1. Move onto the door
applyAction(world, playerId, { type: "move", dx: 1, dy: 0 }, accessor);
expect(player.pos).toEqual({ x: 4, y: 3 });
expect(world.tiles[doorIdx]).toBe(TileType.DOOR_OPEN);
// 2. Wait on the door
applyAction(world, playerId, { type: "wait" }, accessor);
expect(player.pos).toEqual({ x: 4, y: 3 });
expect(world.tiles[doorIdx]).toBe(TileType.DOOR_OPEN);
});
});

1
src/engine/__tests__/EntityAccessor.test.ts
View File

@@ -10,6 +10,7 @@ function createMockWorld(): World {
height: 10, height: 10,
tiles: new Array(100).fill(0), tiles: new Array(100).fill(0),
exit: { x: 9, y: 9 }, exit: { x: 9, y: 9 },
trackPath: []
}; };
} }

3
src/engine/__tests__/ai_behavior.test.ts
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@@ -10,7 +10,8 @@ const createTestWorld = (): World => {
width: 10, width: 10,
height: 10, height: 10,
tiles: new Array(100).fill(TileType.EMPTY), tiles: new Array(100).fill(TileType.EMPTY),
exit: { x: 9, y: 9 } exit: { x: 9, y: 9 },
trackPath: []
}; };
}; };

9
src/engine/__tests__/combat_logic.test.ts
View File

@@ -28,7 +28,8 @@ describe("CombatLogic - getClosestVisibleEnemy", () => {
width: 10, width: 10,
height: 10, height: 10,
tiles: new Array(100).fill(0), tiles: new Array(100).fill(0),
exit: { x: 9, y: 9 } exit: { x: 9, y: 9 },
trackPath: []
}; };
const actors = new Map<EntityId, Actor>(); const actors = new Map<EntityId, Actor>();
@@ -70,7 +71,8 @@ describe("CombatLogic - getClosestVisibleEnemy", () => {
width: 10, width: 10,
height: 10, height: 10,
tiles: new Array(100).fill(0), tiles: new Array(100).fill(0),
exit: { x: 9, y: 9 } exit: { x: 9, y: 9 },
trackPath: []
}; };
const actors = new Map<EntityId, Actor>(); const actors = new Map<EntityId, Actor>();
@@ -123,7 +125,8 @@ describe("CombatLogic - getClosestVisibleEnemy", () => {
width: 10, width: 10,
height: 10, height: 10,
tiles: new Array(100).fill(0), tiles: new Array(100).fill(0),
exit: { x: 9, y: 9 } exit: { x: 9, y: 9 },
trackPath: []
}; };
const actors = new Map<EntityId, Actor>(); const actors = new Map<EntityId, Actor>();

10
src/engine/__tests__/generator.test.ts
View File

@@ -22,9 +22,9 @@ describe('World Generator', () => {
const { world } = generateWorld(1, runState); const { world } = generateWorld(1, runState);
expect(world.width).toBe(60); expect(world.width).toBe(120);
expect(world.height).toBe(40); expect(world.height).toBe(80);
expect(world.tiles.length).toBe(60 * 40); expect(world.tiles.length).toBe(120 * 80);
}); });
it('should place player actor', () => { it('should place player actor', () => {
@@ -252,8 +252,8 @@ describe('World Generator', () => {
const { world } = generateWorld(10, runState); const { world } = generateWorld(10, runState);
// Basic validity checks // Basic validity checks
expect(world.width).toBe(60); expect(world.width).toBe(120);
expect(world.height).toBe(40); expect(world.height).toBe(80);
expect(world.tiles.some(t => t === TileType.EMPTY)).toBe(true); expect(world.tiles.some(t => t === TileType.EMPTY)).toBe(true);
expect(world.tiles.some(t => t === TileType.WALL)).toBe(true); expect(world.tiles.some(t => t === TileType.WALL)).toBe(true);
}); });

3
src/engine/__tests__/pathfinding.test.ts
View File

@@ -11,7 +11,8 @@ describe('Pathfinding', () => {
width, width,
height, height,
tiles: new Array(width * height).fill(tileType), tiles: new Array(width * height).fill(tileType),
exit: { x: 0, y: 0 } exit: { x: 0, y: 0 },
trackPath: []
}); });
it('should find a path between two reachable points', () => { it('should find a path between two reachable points', () => {

27
src/engine/__tests__/simulation.test.ts
View File

@@ -10,7 +10,8 @@ const createTestWorld = (): World => {
width: 10, width: 10,
height: 10, height: 10,
tiles: new Array(100).fill(0), tiles: new Array(100).fill(0),
exit: { x: 9, y: 9 } exit: { x: 9, y: 9 },
trackPath: []
}; };
}; };
@@ -601,4 +602,28 @@ describe('Combat Simulation', () => {
} }
}); });
}); });
describe("Death Cleanup", () => {
it("should remove combatants with 0 HP during turn processing", () => {
const actors = new Map<EntityId, Actor>();
const player = { id: 1, category: "combatant", isPlayer: true, pos: { x: 0, y: 0 }, speed: 10, stats: createTestStats(), energy: 0 } as any;
// Enemy with 0 HP (e.g. killed by status effect prior to turn)
const enemy = {
id: 2, category: "combatant", isPlayer: false, pos: { x: 5, y: 5 }, speed: 100,
stats: createTestStats({ hp: 0 }), energy: 0, type: "rat"
} as any;
actors.set(1 as EntityId, player);
actors.set(2 as EntityId, enemy);
const world = createTestWorld();
syncToECS(actors);
const accessor = new EntityAccessor(world, 1 as EntityId, ecsWorld);
// This should trigger checkDeaths
const result = stepUntilPlayerTurn(world, 1 as EntityId, accessor);
expect(accessor.hasActor(2 as EntityId)).toBe(false);
expect(result.events.some(e => e.type === "killed" && e.targetId === 2)).toBe(true);
});
});
}); });

3
src/engine/__tests__/throwing.test.ts
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@@ -10,7 +10,8 @@ const createTestWorld = (): World => {
width: 10, width: 10,
height: 10, height: 10,
tiles: new Array(100).fill(0), // 0 = Floor tiles: new Array(100).fill(0), // 0 = Floor
exit: { x: 9, y: 9 } exit: { x: 9, y: 9 },
trackPath: []
}; };
}; };

40
src/engine/__tests__/world.test.ts
View File

@@ -1,5 +1,5 @@
import { describe, it, expect } from 'vitest'; import { describe, it, expect } from 'vitest';
import { idx, inBounds, isWall, isBlocked, tryDestructTile, isPlayerOnExit } from '../world/world-logic'; import { idx, inBounds, isWall, isBlocked, tryDestructTile } from '../world/world-logic';
import { type World, type Tile } from '../../core/types'; import { type World, type Tile } from '../../core/types';
import { TileType } from '../../core/terrain'; import { TileType } from '../../core/terrain';
@@ -9,7 +9,8 @@ describe('World Utilities', () => {
width, width,
height, height,
tiles, tiles,
exit: { x: 0, y: 0 } exit: { x: 0, y: 0 },
trackPath: []
}); });
describe('idx', () => { describe('idx', () => {
@@ -141,39 +142,4 @@ describe('World Utilities', () => {
expect(tryDestructTile(world, -1, 0)).toBe(false); expect(tryDestructTile(world, -1, 0)).toBe(false);
}); });
}); });
describe('isPlayerOnExit', () => {
it('should return true when player is on exit', () => {
const world = createTestWorld(10, 10, new Array(100).fill(TileType.EMPTY));
world.exit = { x: 5, y: 5 };
const mockAccessor = {
getPlayer: () => ({ pos: { x: 5, y: 5 } })
} as any;
expect(isPlayerOnExit(world, mockAccessor)).toBe(true);
});
it('should return false when player is not on exit', () => {
const world = createTestWorld(10, 10, new Array(100).fill(TileType.EMPTY));
world.exit = { x: 5, y: 5 };
const mockAccessor = {
getPlayer: () => ({ pos: { x: 4, y: 4 } })
} as any;
expect(isPlayerOnExit(world, mockAccessor)).toBe(false);
});
it('should return false when player does not exist', () => {
const world = createTestWorld(10, 10, new Array(100).fill(TileType.EMPTY));
world.exit = { x: 5, y: 5 };
const mockAccessor = {
getPlayer: () => null
} as any;
expect(isPlayerOnExit(world, mockAccessor)).toBe(false);
});
});
}); });

24
src/engine/ecs/EntityBuilder.ts
View File

@@ -1,6 +1,6 @@
import { type ECSWorld } from "./World"; import { type ECSWorld } from "./World";
import { type ComponentMap } from "./components"; import { type ComponentMap } from "./components";
import { type EntityId, type Stats, type EnemyAIState, type ActorType, type Inventory, type Equipment, type Item } from "../../core/types"; import { type EntityId, type Stats, type EnemyAIState, type ActorType, type Inventory, type Equipment, type Item, type Vec2 } from "../../core/types";
import { GAME_CONFIG } from "../../core/config/GameConfig"; import { GAME_CONFIG } from "../../core/config/GameConfig";
/** /**
@@ -167,17 +167,22 @@ export class EntityBuilder {
asTrigger(options: { asTrigger(options: {
onEnter?: boolean; onEnter?: boolean;
onExit?: boolean; onExit?: boolean;
onInteract?: boolean;
oneShot?: boolean; oneShot?: boolean;
targetId?: EntityId;
effect?: string; effect?: string;
effectDuration?: number; effectDuration?: number;
}): this { }): this {
this.components.trigger = { this.components.trigger = {
onEnter: options.onEnter ?? true, onEnter: options.onEnter ?? false,
onExit: options.onExit, onExit: options.onExit,
onInteract: options.onInteract,
oneShot: options.oneShot, oneShot: options.oneShot,
targetId: options.targetId,
effect: options.effect, effect: options.effect,
effectDuration: options.effectDuration effectDuration: options.effectDuration
}; };
return this; return this;
} }
@@ -237,11 +242,26 @@ export class EntityBuilder {
return this; return this;
} }
/**
* Configure as a mine cart.
*/
asMineCart(path: Vec2[]): this {
this.components.mineCart = {
isMoving: false,
path,
pathIndex: 0
};
this.withSprite("mine_cart", 0);
this.withName("Mine Cart");
return this;
}
/** /**
* Finalize and register all components with the ECS world. * Finalize and register all components with the ECS world.
* @returns The created entity ID * @returns The created entity ID
*/ */
build(): EntityId { build(): EntityId {
for (const [type, data] of Object.entries(this.components)) { for (const [type, data] of Object.entries(this.components)) {
if (data !== undefined) { if (data !== undefined) {
this.world.addComponent(this.entityId, type as keyof ComponentMap, data as any); this.world.addComponent(this.entityId, type as keyof ComponentMap, data as any);

8
src/engine/ecs/EventBus.ts
View File

@@ -19,12 +19,18 @@ export type GameEvent =
// Movement & trigger events // Movement & trigger events
| { type: "stepped_on"; entityId: EntityId; x: number; y: number } | { type: "stepped_on"; entityId: EntityId; x: number; y: number }
| { type: "entity_moved"; entityId: EntityId; from: { x: number; y: number }; to: { x: number; y: number } }
| { type: "trigger_activated"; triggerId: EntityId; activatorId: EntityId } | { type: "trigger_activated"; triggerId: EntityId; activatorId: EntityId }
// Status effect events // Status effect events
| { type: "status_applied"; entityId: EntityId; status: string; duration: number } | { type: "status_applied"; entityId: EntityId; status: string; duration: number }
| { type: "status_expired"; entityId: EntityId; status: string } | { type: "status_expired"; entityId: EntityId; status: string }
| { type: "status_tick"; entityId: EntityId; status: string; remaining: number }; | { type: "status_tick"; entityId: EntityId; status: string; remaining: number }
// World events
| { type: "tile_changed"; x: number; y: number }
| { type: "mission_complete" };
export type GameEventType = GameEvent["type"]; export type GameEventType = GameEvent["type"];

58
src/engine/ecs/Prefabs.ts
View File

@@ -1,6 +1,7 @@
import { type ECSWorld } from "./World"; import { type ECSWorld } from "./World";
import { EntityBuilder } from "./EntityBuilder"; import { EntityBuilder } from "./EntityBuilder";
import { type EntityId, type Item } from "../../core/types"; import { type EntityId, type Item, type Vec2 } from "../../core/types";
import { GAME_CONFIG } from "../../core/config/GameConfig"; import { GAME_CONFIG } from "../../core/config/GameConfig";
/** /**
@@ -20,7 +21,6 @@ export const Prefabs = {
return EntityBuilder.create(world) return EntityBuilder.create(world)
.withPosition(x, y) .withPosition(x, y)
.withName("Rat") .withName("Rat")
.withSprite("rat", 0)
.asEnemy("rat") .asEnemy("rat")
.withStats({ .withStats({
maxHp: config.baseHp + floorBonus, maxHp: config.baseHp + floorBonus,
@@ -40,7 +40,6 @@ export const Prefabs = {
return EntityBuilder.create(world) return EntityBuilder.create(world)
.withPosition(x, y) .withPosition(x, y)
.withName("Bat") .withName("Bat")
.withSprite("bat", 0)
.asEnemy("bat") .asEnemy("bat")
.withStats({ .withStats({
maxHp: config.baseHp + floorBonus, maxHp: config.baseHp + floorBonus,
@@ -185,6 +184,29 @@ export const Prefabs = {
.build(); .build();
}, },
/**
* Create a fire entity on a tile.
*/
fire(world: ECSWorld, x: number, y: number, duration: number = 4): EntityId {
return EntityBuilder.create(world)
.withPosition(x, y)
.withName("Fire")
.withSprite("dungeon", 19) // Reuse fire trap sprite index for fire
.with("lifeSpan", { remainingTurns: duration })
.asTrigger({
onEnter: true,
effect: "burning",
effectDuration: 5
})
.with("trigger", {
onEnter: true,
effect: "burning",
effectDuration: 5,
damage: 3
})
.build();
},
/** /**
* Create a player entity at the given position. * Create a player entity at the given position.
*/ */
@@ -193,15 +215,43 @@ export const Prefabs = {
return EntityBuilder.create(world) return EntityBuilder.create(world)
.withPosition(x, y) .withPosition(x, y)
.withName("Player") .withName("Player")
.withSprite("warrior", 0)
.asPlayer() .asPlayer()
.withStats(config.initialStats) .withStats(config.initialStats)
.withEnergy(config.speed) .withEnergy(config.speed)
.withCombat() .withCombat()
.build(); .build();
},
/**
* Create a mine cart at the start of a path.
*/
mineCart(world: ECSWorld, path: Vec2[]): EntityId {
const start = path[0];
return EntityBuilder.create(world)
.withPosition(start.x, start.y)
.asMineCart(path)
.build();
},
/**
* Create a switch that triggers the mine cart.
*/
trackSwitch(world: ECSWorld, x: number, y: number, cartId: EntityId): EntityId {
return EntityBuilder.create(world)
.withPosition(x, y)
.withName("Track Switch")
.withSprite("track_switch", 0)
.asTrigger({
onEnter: false,
onInteract: true,
oneShot: true,
targetId: cartId
})
.build();
} }
}; };
/** /**
* Type for prefab factory functions. * Type for prefab factory functions.
* Useful for creating maps of spawnable entities. * Useful for creating maps of spawnable entities.

3
src/engine/ecs/__tests__/ECSRemoval.test.ts
View File

@@ -12,7 +12,8 @@ describe('ECS Removal and Accessor', () => {
width: 10, width: 10,
height: 10, height: 10,
tiles: new Array(100).fill(0), tiles: new Array(100).fill(0),
exit: { x: 0, y: 0 } exit: { x: 0, y: 0 },
trackPath: []
}; };
const accessor = new EntityAccessor(gameWorld, 999 as EntityId, ecsWorld); const accessor = new EntityAccessor(gameWorld, 999 as EntityId, ecsWorld);

24
src/engine/ecs/components.ts
View File

@@ -46,13 +46,26 @@ export interface ActorTypeComponent {
export interface TriggerComponent { export interface TriggerComponent {
onEnter?: boolean; // Trigger when entity steps on this tile onEnter?: boolean; // Trigger when entity steps on this tile
onExit?: boolean; // Trigger when entity leaves this tile onExit?: boolean; // Trigger when entity leaves this tile
onInteract?: boolean; // Trigger when entity interacts with this
oneShot?: boolean; // Destroy/disable after triggering once oneShot?: boolean; // Destroy/disable after triggering once
triggered?: boolean; // Has already triggered (for oneShot triggers) triggered?: boolean; // Is currently triggered/active
spent?: boolean; // Has already triggered (for oneShot triggers)
targetId?: EntityId; // Target entity for this trigger (e.g., mine cart for a switch)
damage?: number; // Damage to deal on trigger (for traps) damage?: number; // Damage to deal on trigger (for traps)
effect?: string; // Status effect to apply (e.g., "poison", "slow") effect?: string; // Status effect to apply (e.g., "poison", "slow")
effectDuration?: number; // Duration of applied effect effectDuration?: number; // Duration of applied effect
} }
/**
* For the Mine Cart.
*/
export interface MineCartComponent {
isMoving: boolean;
path: Vec2[];
pathIndex: number;
}
/** /**
* Status effect instance applied to an entity. * Status effect instance applied to an entity.
*/ */
@@ -105,6 +118,13 @@ export interface InventoryComponent extends Inventory {}
export interface EquipmentComponent extends Equipment { } export interface EquipmentComponent extends Equipment { }
/**
* For entities that should be destroyed after a certain amount of time/turns.
*/
export interface LifeSpanComponent {
remainingTurns: number;
}
export type ComponentMap = { export type ComponentMap = {
// Core components // Core components
position: PositionComponent; position: PositionComponent;
@@ -125,6 +145,8 @@ export type ComponentMap = {
groundItem: GroundItemComponent; groundItem: GroundItemComponent;
inventory: InventoryComponent; inventory: InventoryComponent;
equipment: EquipmentComponent; equipment: EquipmentComponent;
lifeSpan: LifeSpanComponent;
mineCart: MineCartComponent;
}; };
export type ComponentType = keyof ComponentMap; export type ComponentType = keyof ComponentMap;

103
src/engine/ecs/systems/FireSystem.ts Normal file
View File

@@ -0,0 +1,103 @@
import { System } from "../System";
import { type ECSWorld } from "../World";
import { type ComponentType } from "../components";
import { type EntityId, type World } from "../../../core/types";
import { TileType, getDestructionResult } from "../../../core/terrain";
import { idx, inBounds } from "../../world/world-logic";
import { Prefabs } from "../Prefabs";
export class FireSystem extends System {
readonly name = "Fire";
readonly requiredComponents: readonly ComponentType[] = ["position"];
readonly priority = 15; // Run after status effects
private world: World;
constructor(world: World) {
super();
this.world = world;
}
update(entities: EntityId[], ecsWorld: ECSWorld, _dt?: number): void {
const fireEntities = entities.filter(id => ecsWorld.getComponent(id, "name")?.name === "Fire");
const spreadTargets: { x: number; y: number; duration: number }[] = [];
const entitiesToRemove: EntityId[] = [];
// Get all combatant positions to avoid spreading onto them
const combatantEntities = ecsWorld.getEntitiesWith("position").filter(id =>
ecsWorld.hasComponent(id, "player") || ecsWorld.hasComponent(id, "stats")
);
const combatantPosSet = new Set(combatantEntities.map(id => {
const p = ecsWorld.getComponent(id, "position")!;
return `${p.x},${p.y}`;
}));
// 1. Process existing fire entities
for (const fireId of fireEntities) {
const pos = ecsWorld.getComponent(fireId, "position");
const lifeSpan = ecsWorld.getComponent(fireId, "lifeSpan");
if (!pos) continue;
// Decrement lifespan
if (lifeSpan) {
lifeSpan.remainingTurns--;
// If fire expires, destroy it and the tile below it
if (lifeSpan.remainingTurns <= 0) {
entitiesToRemove.push(fireId);
const tileIdx = idx(this.world, pos.x, pos.y);
const tile = this.world.tiles[tileIdx];
const nextTile = getDestructionResult(tile);
if (nextTile !== undefined) {
this.world.tiles[tileIdx] = nextTile;
this.eventBus?.emit({ type: "tile_changed", x: pos.x, y: pos.y });
}
continue; // Fire is gone, don't spread from it anymore
}
}
// 2. Spreading logic (only if fire is still active)
for (let dy = -1; dy <= 1; dy++) {
for (let dx = -1; dx <= 1; dx++) {
if (dx === 0 && dy === 0) continue;
const nx = pos.x + dx;
const ny = pos.y + dy;
if (!inBounds(this.world, nx, ny)) continue;
// Skip tiles occupied by any combatant
if (combatantPosSet.has(`${nx},${ny}`)) continue;
const tileIdx = idx(this.world, nx, ny);
const tile = this.world.tiles[tileIdx];
// Fire ONLY spreads to GRASS
if (tile === TileType.GRASS) {
spreadTargets.push({ x: nx, y: ny, duration: 2 });
}
}
}
}
// Cleanup expired fires
for (const id of entitiesToRemove) {
ecsWorld.destroyEntity(id);
}
// 3. Apply spreading
for (const target of spreadTargets) {
// Check if fire already there
const existing = ecsWorld.getEntitiesWith("position").find(id => {
const p = ecsWorld.getComponent(id, "position");
const n = ecsWorld.getComponent(id, "name");
return p?.x === target.x && p?.y === target.y && n?.name === "Fire";
});
if (!existing) {
Prefabs.fire(ecsWorld, target.x, target.y, target.duration);
}
}
}
}

47
src/engine/ecs/systems/MineCartSystem.ts Normal file
View File

@@ -0,0 +1,47 @@
import { System } from "../System";
import { type ECSWorld } from "../World";
import { type EntityId } from "../../../core/types";
/**
* System that moves the mine cart along its fixed path.
* Moves 1 tile per update (tick).
*/
export class MineCartSystem extends System {
readonly name = "MineCart";
readonly requiredComponents = ["mineCart", "position", "sprite"] as const;
update(entities: EntityId[], world: ECSWorld) {
for (const id of entities) {
const mineCart = world.getComponent(id, "mineCart");
const pos = world.getComponent(id, "position");
if (!mineCart || !pos || !mineCart.isMoving) continue;
// Move to next path node if available
if (mineCart.pathIndex < mineCart.path.length - 1) {
mineCart.pathIndex++;
const nextPos = mineCart.path[mineCart.pathIndex];
// Update position component
pos.x = nextPos.x;
pos.y = nextPos.y;
// Emit event for visual feedback
this.eventBus?.emit({
type: "entity_moved",
entityId: id,
from: { x: pos.x, y: pos.y },
to: nextPos
});
} else {
// Reached the end
if (mineCart.isMoving) {
mineCart.isMoving = false;
this.eventBus?.emit({ type: "mission_complete" });
}
}
}
}
}

36
src/engine/ecs/systems/TriggerSystem.ts
View File

@@ -37,7 +37,7 @@ export class TriggerSystem extends System {
const triggerPos = world.getComponent(triggerId, "position"); const triggerPos = world.getComponent(triggerId, "position");
if (!trigger || !triggerPos) continue; if (!trigger || !triggerPos) continue;
if (trigger.triggered && trigger.oneShot) continue; // Already triggered one-shot if (trigger.spent && trigger.oneShot) continue; // Already spent one-shot
// Check for entities at this trigger's position // Check for entities at this trigger's position
for (const entityId of allWithPosition) { for (const entityId of allWithPosition) {
@@ -49,9 +49,14 @@ export class TriggerSystem extends System {
const isOnTrigger = entityPos.x === triggerPos.x && entityPos.y === triggerPos.y; const isOnTrigger = entityPos.x === triggerPos.x && entityPos.y === triggerPos.y;
const wasOnTrigger = this.wasEntityOnTrigger(entityId, triggerPos); const wasOnTrigger = this.wasEntityOnTrigger(entityId, triggerPos);
// Handle enter // Handle enter or manual trigger
if (trigger.onEnter && isOnTrigger && !wasOnTrigger) { if ((trigger.onEnter && isOnTrigger && !wasOnTrigger) || trigger.triggered) {
this.activateTrigger(triggerId, entityId, trigger, world); this.activateTrigger(triggerId, entityId, trigger, world);
// If it was manually triggered, we should reset the flag
if (trigger.triggered) {
trigger.triggered = false;
}
} }
// Handle exit // Handle exit
@@ -81,6 +86,9 @@ export class TriggerSystem extends System {
effectDuration?: number; effectDuration?: number;
oneShot?: boolean; oneShot?: boolean;
triggered?: boolean; triggered?: boolean;
targetId?: EntityId;
onInteract?: boolean;
spent?: boolean;
}, },
world: ECSWorld world: ECSWorld
): void { ): void {
@@ -91,7 +99,22 @@ export class TriggerSystem extends System {
activatorId activatorId
}); });
// Handle Mine Cart activation
if (trigger.targetId) {
const mineCart = world.getComponent(trigger.targetId, "mineCart");
if (mineCart) {
mineCart.isMoving = true;
// Change switch sprite if applicable (optional for now as we only have one frame)
const sprite = world.getComponent(triggerId, "sprite");
if (sprite && sprite.texture === "dungeon") {
sprite.index = 32;
}
}
}
// Apply damage if trap // Apply damage if trap
if (trigger.damage && trigger.damage > 0) { if (trigger.damage && trigger.damage > 0) {
const stats = world.getComponent(activatorId, "stats"); const stats = world.getComponent(activatorId, "stats");
if (stats) { if (stats) {
@@ -124,11 +147,12 @@ export class TriggerSystem extends System {
// Mark as triggered for one-shot triggers and update sprite // Mark as triggered for one-shot triggers and update sprite
if (trigger.oneShot) { if (trigger.oneShot) {
trigger.triggered = true; trigger.spent = true;
trigger.triggered = false;
// Change sprite to triggered appearance (dungeon sprite 23) // Change sprite to triggered appearance if it's a dungeon sprite
const sprite = world.getComponent(triggerId, "sprite"); const sprite = world.getComponent(triggerId, "sprite");
if (sprite) { if (sprite && sprite.texture === "dungeon") {
sprite.index = 23; // Triggered/spent trap appearance sprite.index = 23; // Triggered/spent trap appearance
} }
} }

31
src/engine/gameplay/CombatLogic.ts
View File

@@ -123,9 +123,38 @@ export function traceProjectile(
}; };
} }
/** /**
* Finds the closest visible enemy to a given position. * Calculates tiles within a cone for area of effect attacks.
*/ */
export function getConeTiles(origin: Vec2, target: Vec2, range: number): Vec2[] {
const tiles: Vec2[] = [];
const angle = Math.atan2(target.y - origin.y, target.x - origin.x);
const halfSpread = Math.PI / 4; // 90 degree cone
for (let dy = -range; dy <= range; dy++) {
for (let dx = -range; dx <= range; dx++) {
if (dx === 0 && dy === 0) continue;
const dist = Math.sqrt(dx * dx + dy * dy);
if (dist > range + 0.5) continue;
const tilePos = { x: origin.x + dx, y: origin.y + dy };
const tileAngle = Math.atan2(dy, dx);
// Normalize angle difference to [-PI, PI]
let angleDiff = tileAngle - angle;
while (angleDiff > Math.PI) angleDiff -= 2 * Math.PI;
while (angleDiff < -Math.PI) angleDiff += 2 * Math.PI;
if (Math.abs(angleDiff) <= halfSpread) {
tiles.push(tilePos);
}
}
}
return tiles;
}
export function getClosestVisibleEnemy( export function getClosestVisibleEnemy(
origin: Vec2, origin: Vec2,
seenTiles: Set<string> | boolean[] | Uint8Array, // Support various visibility structures seenTiles: Set<string> | boolean[] | Uint8Array, // Support various visibility structures

3
src/engine/gameplay/__tests__/CombatLogic.test.ts
View File

@@ -22,7 +22,8 @@ describe('CombatLogic', () => {
width: 10, width: 10,
height: 10, height: 10,
tiles: new Array(100).fill(TileType.EMPTY), tiles: new Array(100).fill(TileType.EMPTY),
exit: { x: 9, y: 9 } exit: { x: 9, y: 9 },
trackPath: []
}; };
ecsWorld = new ECSWorld(); ecsWorld = new ECSWorld();
// Shooter ID 1 // Shooter ID 1

3
src/engine/gameplay/__tests__/FireableWeapons.test.ts
View File

@@ -18,7 +18,8 @@ describe("Fireable Weapons & Ammo System", () => {
width: 10, width: 10,
height: 10, height: 10,
tiles: new Array(100).fill(0), tiles: new Array(100).fill(0),
exit: { x: 9, y: 9 } exit: { x: 9, y: 9 },
trackPath: []
}; };
ecsWorld = new ECSWorld(); ecsWorld = new ECSWorld();
accessor = new EntityAccessor(world, 1 as EntityId, ecsWorld); accessor = new EntityAccessor(world, 1 as EntityId, ecsWorld);

147
src/engine/input/GameInput.ts Normal file
View File

@@ -0,0 +1,147 @@
import Phaser from "phaser";
import { TILE_SIZE } from "../../core/constants";
export interface GameInputEvents {
"toggle-menu": () => void;
"close-menu": () => void;
"toggle-inventory": () => void;
"toggle-character": () => void;
"toggle-minimap": () => void;
"reload": () => void;
"wait": () => void;
"zoom": (deltaY: number) => void;
"pan": (dx: number, dy: number) => void;
"cancel-target": () => void;
"confirm-target": () => void; // Left click while targeting
"tile-click": (tileX: number, tileY: number, button: number) => void;
"cursor-move": (worldX: number, worldY: number) => void;
}
export class GameInput extends Phaser.Events.EventEmitter {
private scene: Phaser.Scene;
private cursors: Phaser.Types.Input.Keyboard.CursorKeys;
private wasd: {
W: Phaser.Input.Keyboard.Key;
A: Phaser.Input.Keyboard.Key;
S: Phaser.Input.Keyboard.Key;
D: Phaser.Input.Keyboard.Key;
};
constructor(scene: Phaser.Scene) {
super();
this.scene = scene;
this.cursors = this.scene.input.keyboard!.createCursorKeys();
this.wasd = this.scene.input.keyboard!.addKeys("W,A,S,D") as any;
this.setupKeyboard();
this.setupMouse();
}
private setupKeyboard() {
if (!this.scene.input.keyboard) return;
this.scene.input.keyboard.on("keydown-I", () => this.emit("toggle-menu"));
this.scene.input.keyboard.on("keydown-ESC", () => this.emit("close-menu"));
this.scene.input.keyboard.on("keydown-M", () => this.emit("toggle-minimap"));
this.scene.input.keyboard.on("keydown-B", () => this.emit("toggle-inventory"));
this.scene.input.keyboard.on("keydown-C", () => this.emit("toggle-character"));
this.scene.input.keyboard.on("keydown-R", () => this.emit("reload"));
this.scene.input.keyboard.on("keydown-SPACE", () => this.emit("wait"));
}
private setupMouse() {
this.scene.input.on("wheel", (_p: any, _g: any, _x: any, deltaY: number) => {
this.emit("zoom", deltaY);
});
this.scene.input.mouse?.disableContextMenu();
this.scene.input.on("pointerdown", (p: Phaser.Input.Pointer) => {
if (p.rightButtonDown()) {
this.emit("cancel-target");
}
// For general clicks, we emit tile-click
// Logic for "confirm-target" vs "move" happens in Scene for now,
// or we can distinguish based on internal state if we moved targeting here.
// For now, let's just emit generic events or specific if clear.
// Actually, GameScene has specific logic:
// "If targeting active -> Left Click = throw"
// "Else -> Left Click = move/attack"
// To keep GameInput "dumb", we just emit the click details.
// EXCEPT: Panning logic is computed from pointer movement.
const tx = Math.floor(p.worldX / TILE_SIZE);
const ty = Math.floor(p.worldY / TILE_SIZE);
this.emit("tile-click", tx, ty, p.button);
});
this.scene.input.on("pointermove", (p: Phaser.Input.Pointer) => {
this.emit("cursor-move", p.worldX, p.worldY);
// Panning logic
if (p.isDown) {
const isRightDrag = p.rightButtonDown();
const isMiddleDrag = p.middleButtonDown();
const isShiftDrag = p.isDown && p.event.shiftKey;
if (isRightDrag || isMiddleDrag || isShiftDrag) {
const { x, y } = p.position;
const { x: prevX, y: prevY } = p.prevPosition;
const dx = (x - prevX); // Zoom factor needs to be handled by receiver or passed here
const dy = (y - prevY);
this.emit("pan", dx, dy);
}
}
});
}
public getCursorState() {
// Return simplified WASD state for movement
let dx = 0;
let dy = 0;
const left = this.wasd.A.isDown;
const right = this.wasd.D.isDown;
const up = this.wasd.W.isDown;
const down = this.wasd.S.isDown;
if (left) dx -= 1;
if (right) dx += 1;
if (up) dy -= 1;
if (down) dy += 1;
const anyJustDown = Phaser.Input.Keyboard.JustDown(this.wasd.W) ||
Phaser.Input.Keyboard.JustDown(this.wasd.A) ||
Phaser.Input.Keyboard.JustDown(this.wasd.S) ||
Phaser.Input.Keyboard.JustDown(this.wasd.D);
return {
dx, dy, anyJustDown,
isLeft: !!left,
isRight: !!right,
isUp: !!up,
isDown: !!down
};
}
public getCameraPanState() {
// Return Arrow key state for camera panning
let dx = 0;
let dy = 0;
if (this.cursors.left?.isDown) dx -= 1;
if (this.cursors.right?.isDown) dx += 1;
if (this.cursors.up?.isDown) dy -= 1;
if (this.cursors.down?.isDown) dy += 1;
return { dx, dy };
}
public cleanup() {
this.removeAllListeners();
// Determine is scene specific cleanup is needed for inputs
}
}

3
src/engine/simulation/__tests__/movement_block.test.ts
View File

@@ -19,7 +19,8 @@ describe('Movement Blocking Behavior', () => {
width: 3, width: 3,
height: 3, height: 3,
tiles: new Array(9).fill(TileType.GRASS), tiles: new Array(9).fill(TileType.GRASS),
exit: { x: 2, y: 2 } exit: { x: 2, y: 2 },
trackPath: []
}; };
// Blocking wall at (1, 0) // Blocking wall at (1, 0)

78
src/engine/simulation/simulation.ts
View File

@@ -2,7 +2,7 @@ import type { World, EntityId, Action, SimEvent, Actor, CombatantActor, Collecti
import { calculateDamage } from "../gameplay/CombatLogic"; import { calculateDamage } from "../gameplay/CombatLogic";
import { isBlocked, tryDestructTile } from "../world/world-logic"; import { isBlocked, tryDestructTile } from "../world/world-logic";
import { isDestructibleByWalk } from "../../core/terrain"; import { isDestructibleByWalk, TileType } from "../../core/terrain";
import { GAME_CONFIG } from "../../core/config/GameConfig"; import { GAME_CONFIG } from "../../core/config/GameConfig";
import { type EntityAccessor } from "../EntityAccessor"; import { type EntityAccessor } from "../EntityAccessor";
import { AISystem } from "../ecs/AISystem"; import { AISystem } from "../ecs/AISystem";
@@ -29,6 +29,8 @@ export function applyAction(w: World, actorId: EntityId, action: Action, accesso
break; break;
} }
checkDeaths(events, accessor);
return events; return events;
} }
@@ -100,14 +102,51 @@ function handleMove(w: World, actor: Actor, action: { dx: number; dy: number },
const events: SimEvent[] = [{ type: "moved", actorId: actor.id, from, to }]; const events: SimEvent[] = [{ type: "moved", actorId: actor.id, from, to }];
const tileIdx = ny * w.width + nx; const tileIdx = ny * w.width + nx;
if (isDestructibleByWalk(w.tiles[tileIdx])) { const tile = w.tiles[tileIdx];
if (isDestructibleByWalk(tile)) {
// Only open if it's currently closed.
// tryDestructTile toggles, so we must be specific for doors.
if (tile === TileType.DOOR_CLOSED) {
tryDestructTile(w, nx, ny); tryDestructTile(w, nx, ny);
} else if (tile !== TileType.DOOR_OPEN) {
// For other destructibles like grass
tryDestructTile(w, nx, ny);
}
}
// Handle "from" tile - Close door if we just left it and no one else is there
const fromIdx = from.y * w.width + from.x;
if (w.tiles[fromIdx] === TileType.DOOR_OPEN) {
const actorsLeft = accessor.getActorsAt(from.x, from.y);
if (actorsLeft.length === 0) {
console.log(`[simulation] Closing door at ${from.x},${from.y} - Actor ${actor.id} left`);
w.tiles[fromIdx] = TileType.DOOR_CLOSED;
} else {
console.log(`[simulation] Door at ${from.x},${from.y} stays open - ${actorsLeft.length} actors remain`);
}
} }
if (actor.category === "combatant" && actor.isPlayer) { if (actor.category === "combatant" && actor.isPlayer) {
handleExpCollection(actor, events, accessor); handleExpCollection(actor, events, accessor);
} }
return events; return events;
} else {
// If blocked, check if we can interact with an entity at the target position
if (actor.category === "combatant" && actor.isPlayer && accessor?.context) {
const ecsWorld = accessor.context;
const interactables = ecsWorld.getEntitiesWith("position", "trigger").filter(id => {
const p = ecsWorld.getComponent(id, "position");
const t = ecsWorld.getComponent(id, "trigger");
return p?.x === nx && p?.y === ny && t?.onInteract;
});
if (interactables.length > 0) {
// Trigger interaction by marking it as triggered
// The TriggerSystem will pick this up on the next update
ecsWorld.getComponent(interactables[0], "trigger")!.triggered = true;
}
}
} }
return [{ type: "move-blocked", actorId: actor.id, x: nx, y: ny }]; return [{ type: "move-blocked", actorId: actor.id, x: nx, y: ny }];
@@ -115,6 +154,7 @@ function handleMove(w: World, actor: Actor, action: { dx: number; dy: number },
function handleAttack(_w: World, actor: Actor, action: { targetId: EntityId }, accessor: EntityAccessor): SimEvent[] { function handleAttack(_w: World, actor: Actor, action: { targetId: EntityId }, accessor: EntityAccessor): SimEvent[] {
const target = accessor.getActor(action.targetId); const target = accessor.getActor(action.targetId);
if (target && target.category === "combatant" && actor.category === "combatant") { if (target && target.category === "combatant" && actor.category === "combatant") {
@@ -174,10 +214,18 @@ function handleAttack(_w: World, actor: Actor, action: { targetId: EntityId }, a
}); });
if (target.stats.hp <= 0) { if (target.stats.hp <= 0) {
killActor(target, events, accessor, actor.id);
}
return events;
}
return [{ type: "waited", actorId: actor.id }];
}
export function killActor(target: CombatantActor, events: SimEvent[], accessor: EntityAccessor, killerId?: EntityId): void {
events.push({ events.push({
type: "killed", type: "killed",
targetId: target.id, targetId: target.id,
killerId: actor.id, killerId: killerId ?? (0 as EntityId),
x: target.pos.x, x: target.pos.x,
y: target.pos.y, y: target.pos.y,
victimType: target.type as ActorType victimType: target.type as ActorType
@@ -185,19 +233,34 @@ function handleAttack(_w: World, actor: Actor, action: { targetId: EntityId }, a
accessor.removeActor(target.id); accessor.removeActor(target.id);
// Extinguish fire at the death position
const ecsWorld = accessor.context;
if (ecsWorld) {
const firesAtPos = ecsWorld.getEntitiesWith("position", "name").filter(id => {
const p = ecsWorld.getComponent(id, "position");
const n = ecsWorld.getComponent(id, "name");
return p?.x === target.pos.x && p?.y === target.pos.y && n?.name === "Fire";
});
for (const fireId of firesAtPos) {
ecsWorld.destroyEntity(fireId);
}
// Spawn EXP Orb // Spawn EXP Orb
const enemyDef = (GAME_CONFIG.enemies as any)[target.type || ""]; const enemyDef = (GAME_CONFIG.enemies as any)[target.type || ""];
const expAmount = enemyDef?.expValue || 0; const expAmount = enemyDef?.expValue || 0;
const ecsWorld = accessor.context;
if (ecsWorld) {
const orbId = Prefabs.expOrb(ecsWorld, target.pos.x, target.pos.y, expAmount); const orbId = Prefabs.expOrb(ecsWorld, target.pos.x, target.pos.y, expAmount);
events.push({ type: "orb-spawned", orbId, x: target.pos.x, y: target.pos.y }); events.push({ type: "orb-spawned", orbId, x: target.pos.x, y: target.pos.y });
} }
} }
return events;
export function checkDeaths(events: SimEvent[], accessor: EntityAccessor): void {
const combatants = accessor.getCombatants();
for (const c of combatants) {
if (c.stats.hp <= 0) {
killActor(c, events, accessor);
}
} }
return [{ type: "waited", actorId: actor.id }];
} }
@@ -278,6 +341,7 @@ export function stepUntilPlayerTurn(w: World, playerId: EntityId, accessor: Enti
} }
events.push(...applyAction(w, actor.id, decision.action, accessor)); events.push(...applyAction(w, actor.id, decision.action, accessor));
checkDeaths(events, accessor);
if (!accessor.isPlayerAlive()) { if (!accessor.isPlayerAlive()) {
return { awaitingPlayerId: null as any, events }; return { awaitingPlayerId: null as any, events };

555
src/engine/world/generator.ts
View File

@@ -8,7 +8,8 @@ import {
createRangedWeapon, createRangedWeapon,
createArmour, createArmour,
createUpgradeScroll, createUpgradeScroll,
createAmmo createAmmo,
createCeramicDragonHead
} from "../../core/config/Items"; } from "../../core/config/Items";
import { seededRandom } from "../../core/math"; import { seededRandom } from "../../core/math";
import * as ROT from "rot-js"; import * as ROT from "rot-js";
@@ -17,6 +18,8 @@ import { Prefabs } from "../ecs/Prefabs";
import { EntityBuilder } from "../ecs/EntityBuilder"; import { EntityBuilder } from "../ecs/EntityBuilder";
interface Room { interface Room {
x: number; x: number;
y: number; y: number;
@@ -35,20 +38,33 @@ export function generateWorld(floor: number, runState: RunState): { world: World
const height = GAME_CONFIG.map.height; const height = GAME_CONFIG.map.height;
const tiles: Tile[] = new Array(width * height).fill(TileType.WALL); const tiles: Tile[] = new Array(width * height).fill(TileType.WALL);
const random = seededRandom(floor * 12345); const random = seededRandom(runState.seed + floor * 12345);
// Create ECS World first // Create ECS World first
const ecsWorld = new ECSWorld(); // Starts at ID 1 by default const ecsWorld = new ECSWorld(); // Starts at ID 1 by default
// Set ROT's RNG seed for consistent dungeon generation // Set ROT's RNG seed for consistent dungeon generation
ROT.RNG.setSeed(floor * 12345); ROT.RNG.setSeed(runState.seed + floor * 12345);
const rooms = generateRooms(width, height, tiles, floor, random); // Replace generateRooms call with track-first logic for mine cart mechanic
const { rooms, trackPath } = generateTrackLevel(width, height, tiles, floor, random);
console.log(`[generator] Track generated with ${trackPath.length} nodes.`);
console.log(`[generator] Rooms generated: ${rooms.length}`);
if (!trackPath || trackPath.length === 0) {
throw new Error("Failed to generate track path");
}
// Place player at start of track
const playerX = trackPath[0].x;
const playerY = trackPath[0].y;
// Clear track path
for (const pos of trackPath) {
tiles[pos.y * width + pos.x] = TileType.TRACK;
}
// Place player in first room
const firstRoom = rooms[0];
const playerX = firstRoom.x + Math.floor(firstRoom.width / 2);
const playerY = firstRoom.y + Math.floor(firstRoom.height / 2);
// Create Player Entity in ECS // Create Player Entity in ECS
const runInventory = { const runInventory = {
@@ -62,6 +78,7 @@ export function generateWorld(floor: number, runState: RunState): { world: World
createConsumable("throwing_dagger", 3), createConsumable("throwing_dagger", 3),
createRangedWeapon("pistol"), createRangedWeapon("pistol"),
createAmmo("ammo_9mm", 10), createAmmo("ammo_9mm", 10),
createCeramicDragonHead(),
createArmour("leather_armor", "heavy"), createArmour("leather_armor", "heavy"),
createUpgradeScroll(2) createUpgradeScroll(2)
] : []) ] : [])
@@ -77,248 +94,296 @@ export function generateWorld(floor: number, runState: RunState): { world: World
.withEnergy(GAME_CONFIG.player.speed) .withEnergy(GAME_CONFIG.player.speed)
.build(); .build();
// No more legacy Actors Map // Create Mine Cart at start of track
const cartId = Prefabs.mineCart(ecsWorld, trackPath);
// Place exit in last room const exit = { ...trackPath[trackPath.length - 1] };
const lastRoom = rooms[rooms.length - 1];
const exit: Vec2 = {
x: lastRoom.x + Math.floor(lastRoom.width / 2),
y: lastRoom.y + Math.floor(lastRoom.height / 2)
};
placeEnemies(floor, rooms, ecsWorld, random); // Place Switch adjacent to the end of the track
let switchPos = { x: exit.x, y: exit.y };
// Place traps (using same ecsWorld) const neighbors = [
{ x: exit.x + 1, y: exit.y },
{ x: exit.x - 1, y: exit.y },
{ x: exit.x, y: exit.y + 1 },
{ x: exit.x, y: exit.y - 1 },
];
for (const n of neighbors) {
if (n.x >= 1 && n.x < width - 1 && n.y >= 1 && n.y < height - 1) {
const t = tiles[n.y * width + n.x];
if (t === TileType.EMPTY || t === TileType.EMPTY_DECO || t === TileType.GRASS || t === TileType.TRACK) {
switchPos = n;
// Don't break if it's track, try to find a real empty spot first
if (t !== TileType.TRACK) break;
}
}
}
Prefabs.trackSwitch(ecsWorld, switchPos.x, switchPos.y, cartId);
// Mark all track and room tiles as occupied for objects
const occupiedPositions = new Set<string>(); const occupiedPositions = new Set<string>();
occupiedPositions.add(`${playerX},${playerY}`); // Don't place traps on player start occupiedPositions.add(`${playerX},${playerY}`);
occupiedPositions.add(`${exit.x},${exit.y}`); // Don't place traps on exit occupiedPositions.add(`${exit.x},${exit.y}`);
placeTraps(floor, rooms, ecsWorld, tiles, width, random, occupiedPositions); for (const pos of trackPath) {
occupiedPositions.add(`${pos.x},${pos.y}`);
// Place doors for dungeon levels (Uniform/Digger)
// Caves (Floors 10+) shouldn't have manufactured doors
if (floor <= 9) {
placeDoors(width, height, tiles, rooms, random);
} }
// Place enemies
placeEnemies(floor, rooms, ecsWorld, tiles, width, random, occupiedPositions);
// Place traps
placeTraps(floor, rooms, ecsWorld, tiles, width, random, occupiedPositions);
// Decorate and finalize tiles
decorate(width, height, tiles, random, exit); decorate(width, height, tiles, random, exit);
// CRITICAL FIX: Ensure player start position is always clear! // Ensure start and end are walkable and marked
// Otherwise spawning in Grass (which blocks vision) makes the player blind.
tiles[playerY * width + playerX] = TileType.EMPTY; tiles[playerY * width + playerX] = TileType.EMPTY;
tiles[exit.y * width + exit.x] = TileType.EXIT;
return { return {
world: { width, height, tiles, exit }, world: { width, height, tiles, exit, trackPath },
playerId, playerId,
ecsWorld ecsWorld
}; };
} }
/**
// Update generateRooms signature to accept random * Generates a level with a central rail track from start to end.
function generateRooms(width: number, height: number, tiles: Tile[], floor: number, random: () => number): Room[] { */
function generateTrackLevel(width: number, height: number, tiles: Tile[], _floor: number, random: () => number): { rooms: Room[], trackPath: Vec2[] } {
const rooms: Room[] = []; const rooms: Room[] = [];
const trackPath: Vec2[] = [];
// Choose dungeon algorithm based on floor depth // 1. Generate a winding path of "Anchor Points" for rooms
let dungeon: any; const anchors: Vec2[] = [];
const startDir = Math.floor(random() * 4); // 0: East, 1: West, 2: South, 3: North
if (floor <= 4) { let currA: Vec2;
// Floors 1-4: Uniform (organic, irregular rooms) const margin = 10;
dungeon = new ROT.Map.Uniform(width, height, { const stepSize = 12;
roomWidth: [GAME_CONFIG.map.roomMinWidth, GAME_CONFIG.map.roomMaxWidth],
roomHeight: [GAME_CONFIG.map.roomMinHeight, GAME_CONFIG.map.roomMaxHeight],
roomDugPercentage: 0.3,
});
} else if (floor <= 9) {
// Floors 5-9: Digger (traditional rectangular rooms + corridors)
dungeon = new ROT.Map.Digger(width, height, {
roomWidth: [GAME_CONFIG.map.roomMinWidth, GAME_CONFIG.map.roomMaxWidth],
roomHeight: [GAME_CONFIG.map.roomMinHeight, GAME_CONFIG.map.roomMaxHeight],
corridorLength: [2, 6],
});
} else {
// Floors 10+: Cellular (natural cave systems)
dungeon = new ROT.Map.Cellular(width, height, {
born: [4, 5, 6, 7, 8],
survive: [2, 3, 4, 5],
});
// Cellular needs randomization and smoothing if (startDir === 0) { // East (Left to Right)
dungeon.randomize(0.5); currA = { x: margin, y: margin + Math.floor(random() * (height - margin * 2)) };
for (let i = 0; i < 4; i++) { } else if (startDir === 1) { // West (Right to Left)
dungeon.create(); currA = { x: width - margin, y: margin + Math.floor(random() * (height - margin * 2)) };
} } else if (startDir === 2) { // South (Top to Bottom)
currA = { x: margin + Math.floor(random() * (width - margin * 2)), y: margin };
} else { // North (Bottom to Top)
currA = { x: margin + Math.floor(random() * (width - margin * 2)), y: height - margin };
} }
// Generate the dungeon anchors.push({ ...currA });
dungeon.create((x: number, y: number, value: number) => {
if (value === 0) { const isFinished = () => {
// 0 = floor, 1 = wall if (startDir === 0) return currA.x >= width - margin;
if (startDir === 1) return currA.x <= margin;
if (startDir === 2) return currA.y >= height - margin;
return currA.y <= margin;
};
while (!isFinished()) {
let nextX = currA.x;
let nextY = currA.y;
if (startDir === 0) { // East
nextX += Math.floor(stepSize * (0.8 + random() * 0.4));
nextY += Math.floor((random() - 0.5) * height * 0.4);
} else if (startDir === 1) { // West
nextX -= Math.floor(stepSize * (0.8 + random() * 0.4));
nextY += Math.floor((random() - 0.5) * height * 0.4);
} else if (startDir === 2) { // South
nextY += Math.floor(stepSize * (0.8 + random() * 0.4));
nextX += Math.floor((random() - 0.5) * width * 0.4);
} else { // North
nextY -= Math.floor(stepSize * (0.8 + random() * 0.4));
nextX += Math.floor((random() - 0.5) * width * 0.4);
}
currA = {
x: Math.max(margin / 2, Math.min(width - margin / 2, nextX)),
y: Math.max(margin / 2, Math.min(height - margin / 2, nextY))
};
anchors.push({ ...currA });
}
// 2. Place Primary Rooms at anchors and connect them
let prevCenter: Vec2 | null = null;
for (const anchor of anchors) {
const rw = 7 + Math.floor(random() * 6);
const rh = 6 + Math.floor(random() * 6);
const rx = Math.floor(anchor.x - rw / 2);
const ry = Math.floor(anchor.y - rh / 2);
const room: Room = { x: rx, y: ry, width: rw, height: rh };
// Dig room interior
for (let y = ry + 1; y < ry + rh - 1; y++) {
for (let x = rx + 1; x < rx + rw - 1; x++) {
if (x >= 0 && x < width && y >= 0 && y < height) {
tiles[y * width + x] = TileType.EMPTY; tiles[y * width + x] = TileType.EMPTY;
} }
});
// Extract room information from the generated dungeon
const roomData = (dungeon as any).getRooms?.();
if (roomData && roomData.length > 0) {
// Traditional dungeons (Uniform/Digger) have explicit rooms
for (const room of roomData) {
rooms.push({
x: room.getLeft(),
y: room.getTop(),
width: room.getRight() - room.getLeft() + 1,
height: room.getBottom() - room.getTop() + 1
});
}
} else {
// Cellular caves don't have explicit rooms, so find connected floor areas
rooms.push(...extractRoomsFromCave(width, height, tiles));
// Connect the isolated cave rooms
connectRooms(width, tiles, rooms, random);
}
// Ensure we have at least 2 rooms for player/exit placement
if (rooms.length < 2) {
// Fallback: create two basic rooms
rooms.push(
{ x: 5, y: 5, width: 5, height: 5 },
{ x: width - 10, y: height - 10, width: 5, height: 5 }
);
// Connect the fallback rooms
connectRooms(width, tiles, rooms, random);
}
return rooms;
}
function connectRooms(width: number, tiles: Tile[], rooms: Room[], random: () => number) {
for (let i = 0; i < rooms.length - 1; i++) {
const r1 = rooms[i];
const r2 = rooms[i+1];
const c1x = r1.x + Math.floor(r1.width / 2);
const c1y = r1.y + Math.floor(r1.height / 2);
const c2x = r2.x + Math.floor(r2.width / 2);
const c2y = r2.y + Math.floor(r2.height / 2);
if (random() < 0.5) {
digH(width, tiles, c1x, c2x, c1y);
digV(width, tiles, c1y, c2y, c2x);
} else {
digV(width, tiles, c1y, c2y, c1x);
digH(width, tiles, c1x, c2x, c2y);
}
} }
} }
rooms.push(room);
function digH(width: number, tiles: Tile[], x1: number, x2: number, y: number) { const currCenter = { x: rx + Math.floor(rw / 2), y: ry + Math.floor(rh / 2) };
const start = Math.min(x1, x2);
const end = Math.max(x1, x2);
for (let x = start; x <= end; x++) {
const idx = y * width + x;
if (tiles[idx] === TileType.WALL) {
tiles[idx] = TileType.EMPTY;
}
}
}
function digV(width: number, tiles: Tile[], y1: number, y2: number, x: number) { // 3. Connect to previous room and lay track
const start = Math.min(y1, y2); if (prevCenter) {
const end = Math.max(y1, y2); // Connect path
for (let y = start; y <= end; y++) { const segment: Vec2[] = [];
const idx = y * width + x; let tx = prevCenter.x;
if (tiles[idx] === TileType.WALL) { let ty = prevCenter.y;
tiles[idx] = TileType.EMPTY;
}
}
}
/** const dig = (x: number, y: number) => {
* For cellular/cave maps, find clusters of floor tiles to use as "rooms" for (let dy = 0; dy <= 1; dy++) {
*/ for (let dx = 0; dx <= 1; dx++) {
function extractRoomsFromCave(width: number, height: number, tiles: Tile[]): Room[] { const nx = x + dx;
const rooms: Room[] = []; const ny = y + dy;
const visited = new Set<number>();
// Find large connected floor areas
for (let y = 1; y < height - 1; y++) {
for (let x = 1; x < width - 1; x++) {
const idx = y * width + x;
if (tiles[idx] === TileType.EMPTY && !visited.has(idx)) {
const cluster = floodFill(width, height, tiles, x, y, visited);
// Only consider clusters larger than 20 tiles
if (cluster.length > 20) {
// Create bounding box for this cluster
let minX = width, maxX = 0, minY = height, maxY = 0;
for (const pos of cluster) {
const cx = pos % width;
const cy = Math.floor(pos / width);
minX = Math.min(minX, cx);
maxX = Math.max(maxX, cx);
minY = Math.min(minY, cy);
maxY = Math.max(maxY, cy);
}
rooms.push({
x: minX,
y: minY,
width: maxX - minX + 1,
height: maxY - minY + 1
});
}
}
}
}
return rooms;
}
/**
* Flood fill to find connected floor tiles
*/
function floodFill(width: number, height: number, tiles: Tile[], startX: number, startY: number, visited: Set<number>): number[] {
const cluster: number[] = [];
const queue: number[] = [startY * width + startX];
while (queue.length > 0) {
const idx = queue.shift()!;
if (visited.has(idx)) continue;
visited.add(idx);
cluster.push(idx);
const x = idx % width;
const y = Math.floor(idx / width);
// Check 4 directions
const neighbors = [
{ nx: x + 1, ny: y },
{ nx: x - 1, ny: y },
{ nx: x, ny: y + 1 },
{ nx: x, ny: y - 1 },
];
for (const { nx, ny } of neighbors) {
if (nx >= 0 && nx < width && ny >= 0 && ny < height) { if (nx >= 0 && nx < width && ny >= 0 && ny < height) {
const nIdx = ny * width + nx; tiles[ny * width + nx] = TileType.EMPTY;
if (tiles[nIdx] === TileType.EMPTY && !visited.has(nIdx)) {
queue.push(nIdx);
} }
} }
} }
if (!segment.find(p => p.x === x && p.y === y)) {
segment.push({ x, y });
}
};
// Simple L-shape for tracks within/between rooms
while (tx !== currCenter.x) {
tx += currCenter.x > tx ? 1 : -1;
dig(tx, ty);
}
while (ty !== currCenter.y) {
ty += currCenter.y > ty ? 1 : -1;
dig(tx, ty);
}
trackPath.push(...segment);
} else {
trackPath.push(currCenter);
}
prevCenter = currCenter;
}
// 4. Branch Side Rooms off the main path
const targetSideRooms = 10;
let attempts = 0;
const maxAttempts = 300;
while (rooms.length < targetSideRooms + anchors.length && attempts < maxAttempts) {
attempts++;
const sourcePathIdx = Math.floor(random() * trackPath.length);
const source = trackPath[sourcePathIdx];
const rw = 5 + Math.floor(random() * 5); // Slightly smaller rooms to fit better
const rh = 4 + Math.floor(random() * 5);
// Try multiple offsets to find a gap
const distances = [5, 6, 7, 8];
const sides = [-1, 1];
let placed = false;
for (const dist of distances) {
for (const side of sides) {
let rx, ry;
if (random() < 0.5) { // Try horizontal offset
rx = source.x + (side * dist);
ry = source.y - Math.floor(rh / 2);
} else { // Try vertical offset
rx = source.x - Math.floor(rw / 2);
ry = source.y + (side * dist);
}
rx = Math.max(1, Math.min(width - rw - 1, rx));
ry = Math.max(1, Math.min(height - rh - 1, ry));
const room = { x: rx, y: ry, width: rw, height: rh };
// 1. Check overlap with existing rooms (strict padding)
const overlapRooms = rooms.some(r => !(room.x + room.width < r.x - 1 || room.x > r.x + r.width + 1 || room.y + room.height < r.y - 1 || room.y > r.y + r.height + 1));
if (overlapRooms) continue;
// 2. Check overlap with existing core structures (EMPTY tiles)
let overlapEmpty = false;
for (let y = ry - 1; y < ry + rh + 1; y++) {
for (let x = rx - 1; x < rx + rw + 1; x++) {
if (tiles[y * width + x] === TileType.EMPTY) {
overlapEmpty = true;
break;
}
}
if (overlapEmpty) break;
}
if (overlapEmpty) continue;
// Valid spot found!
for (let y = ry + 1; y < ry + rh - 1; y++) {
for (let x = rx + 1; x < rx + rw - 1; x++) {
tiles[y * width + x] = TileType.EMPTY;
}
}
digCorridor(width, tiles, source.x, source.y, rx + Math.floor(rw / 2), ry + Math.floor(rh / 2));
// Place door at room boundary
let ex = rx + Math.floor(rw / 2);
let ey = ry + (source.y <= ry ? 0 : rh - 1);
if (source.x < rx) {
ex = rx; ey = ry + Math.floor(rh / 2);
} else if (source.x >= rx + rw) {
ex = rx + rw - 1; ey = ry + Math.floor(rh / 2);
} else if (source.y < ry) {
ex = rx + Math.floor(rw / 2); ey = ry;
} else if (source.y >= ry + rh) {
ex = rx + Math.floor(rw / 2); ey = ry + rh - 1;
}
tiles[ey * width + ex] = TileType.DOOR_CLOSED;
rooms.push(room);
placed = true;
break;
}
if (placed) break;
}
}
console.log(`[generator] Final side rooms placed: ${rooms.length - anchors.length} after ${attempts} attempts.`);
// Place visual exit at track end
const lastNode = trackPath[trackPath.length - 1];
tiles[lastNode.y * width + lastNode.x] = TileType.EXIT;
return { rooms, trackPath };
}
function digCorridor(width: number, tiles: Tile[], x1: number, y1: number, x2: number, y2: number) {
let currX = x1;
let currY = y1;
while (currX !== x2 || currY !== y2) {
if (currX !== x2) {
currX += x2 > currX ? 1 : -1;
} else if (currY !== y2) {
currY += y2 > currY ? 1 : -1;
}
// Only dig if it's currently a wall
if (tiles[currY * width + currX] === TileType.WALL) {
tiles[currY * width + currX] = TileType.EMPTY;
}
}
} }
return cluster;
}
function decorate(width: number, height: number, tiles: Tile[], random: () => number, exit: Vec2): void {
function decorate(width: number, height: number, tiles: Tile[], random: () => number, _exit: Vec2): void {
const world = { width, height }; const world = { width, height };
// Stairs removed as per user request
// Set exit tile
tiles[idx(world as any, exit.x, exit.y)] = TileType.EXIT;
// Use Simplex noise for natural-looking grass distribution // Use Simplex noise for natural-looking grass distribution
const grassNoise = new ROT.Noise.Simplex(); const grassNoise = new ROT.Noise.Simplex();
@@ -350,7 +415,6 @@ function decorate(width: number, height: number, tiles: Tile[], random: () => nu
if (decoValue > 0.5) { if (decoValue > 0.5) {
tiles[i] = TileType.EMPTY_DECO; tiles[i] = TileType.EMPTY_DECO;
} else if (decoValue > 0.3 && random() < 0.3) { } else if (decoValue > 0.3 && random() < 0.3) {
// Sparse decorations at medium noise levels
tiles[i] = TileType.EMPTY_DECO; tiles[i] = TileType.EMPTY_DECO;
} }
} }
@@ -373,11 +437,20 @@ function decorate(width: number, height: number, tiles: Tile[], random: () => nu
} }
} }
function placeEnemies(floor: number, rooms: Room[], ecsWorld: ECSWorld, random: () => number): void { function placeEnemies(
floor: number,
rooms: Room[],
ecsWorld: ECSWorld,
tiles: Tile[],
width: number,
random: () => number,
occupiedPositions: Set<string>
): void {
const numEnemies = GAME_CONFIG.enemyScaling.baseCount + floor * GAME_CONFIG.enemyScaling.baseCountPerFloor; const numEnemies = GAME_CONFIG.enemyScaling.baseCount + floor * GAME_CONFIG.enemyScaling.baseCountPerFloor;
const enemyTypes = Object.keys(GAME_CONFIG.enemies); const enemyTypes = Object.keys(GAME_CONFIG.enemies);
const occupiedPositions = new Set<string>();
if (rooms.length < 2) return;
for (let i = 0; i < numEnemies; i++) { for (let i = 0; i < numEnemies; i++) {
// Pick a random room (not the starting room 0) // Pick a random room (not the starting room 0)
@@ -385,13 +458,17 @@ function placeEnemies(floor: number, rooms: Room[], ecsWorld: ECSWorld, random:
const room = rooms[roomIdx]; const room = rooms[roomIdx];
// Try to find an empty spot in the room // Try to find an empty spot in the room
for (let attempts = 0; attempts < 5; attempts++) { for (let attempts = 0; attempts < 20; attempts++) {
const ex = room.x + 1 + Math.floor(random() * (room.width - 2)); const ex = room.x + 1 + Math.floor(random() * (room.width - 2));
const ey = room.y + 1 + Math.floor(random() * (room.height - 2)); const ey = room.y + 1 + Math.floor(random() * (room.height - 2));
const k = `${ex},${ey}`; const k = `${ex},${ey}`;
const tileIdx = ey * width + ex;
const isFloor = tiles[tileIdx] === TileType.EMPTY ||
tiles[tileIdx] === TileType.EMPTY_DECO ||
tiles[tileIdx] === TileType.GRASS_SAPLINGS;
if (!occupiedPositions.has(k)) { if (isFloor && !occupiedPositions.has(k)) {
const type = enemyTypes[Math.floor(random() * enemyTypes.length)] as keyof typeof GAME_CONFIG.enemies; const type = enemyTypes[Math.floor(random() * enemyTypes.length)] as keyof typeof GAME_CONFIG.enemies;
const enemyDef = GAME_CONFIG.enemies[type]; const enemyDef = GAME_CONFIG.enemies[type];
@@ -404,6 +481,9 @@ function placeEnemies(floor: number, rooms: Room[], ecsWorld: ECSWorld, random:
EntityBuilder.create(ecsWorld) EntityBuilder.create(ecsWorld)
.asEnemy(type) .asEnemy(type)
.withPosition(ex, ey) .withPosition(ex, ey)
.withSprite(type, 0)
.withName(type.charAt(0).toUpperCase() + type.slice(1))
.withCombat()
.withStats({ .withStats({
maxHp: scaledHp + Math.floor(random() * 4), maxHp: scaledHp + Math.floor(random() * 4),
hp: scaledHp + Math.floor(random() * 4), hp: scaledHp + Math.floor(random() * 4),
@@ -411,7 +491,6 @@ function placeEnemies(floor: number, rooms: Room[], ecsWorld: ECSWorld, random:
defense: enemyDef.baseDefense, defense: enemyDef.baseDefense,
}) })
.withEnergy(speed) // Configured speed .withEnergy(speed) // Configured speed
// Note: Other stats like crit/evasion are defaults from EntityBuilder or BaseStats
.build(); .build();
occupiedPositions.add(k); occupiedPositions.add(k);
@@ -442,6 +521,8 @@ function placeTraps(
const maxTraps = minTraps + 2; const maxTraps = minTraps + 2;
const numTraps = minTraps + Math.floor(random() * (maxTraps - minTraps + 1)); const numTraps = minTraps + Math.floor(random() * (maxTraps - minTraps + 1));
if (rooms.length < 2) return;
for (let i = 0; i < numTraps; i++) { for (let i = 0; i < numTraps; i++) {
// Pick a random room (not the starting room) // Pick a random room (not the starting room)
const roomIdx = 1 + Math.floor(random() * (rooms.length - 1)); const roomIdx = 1 + Math.floor(random() * (rooms.length - 1));
@@ -489,39 +570,3 @@ function placeTraps(
export const makeTestWorld = generateWorld; export const makeTestWorld = generateWorld;
function placeDoors(width: number, height: number, tiles: Tile[], rooms: Room[], random: () => number): void {
const checkAndPlaceDoor = (x: number, y: number) => {
const i = idx({ width, height } as any, x, y);
if (tiles[i] === TileType.EMPTY) {
// Found a connection (floor tile on perimeter)
// 50% chance to place a door
if (random() < 0.5) {
// 90% chance for closed door, 10% for open
tiles[i] = random() < 0.9 ? TileType.DOOR_CLOSED : TileType.DOOR_OPEN;
}
}
};
for (const room of rooms) {
// Scan top and bottom walls
const topY = room.y - 1;
const bottomY = room.y + room.height;
// Scan horizontal perimeters (iterate x from left-1 to right+1 to cover corners too if needed,
// but usually doors are in the middle segments. Let's cover the full range adjacent to room.)
for (let x = room.x; x < room.x + room.width; x++) {
if (topY >= 0) checkAndPlaceDoor(x, topY);
if (bottomY < height) checkAndPlaceDoor(x, bottomY);
}
// Scan left and right walls
const leftX = room.x - 1;
const rightX = room.x + room.width;
for (let y = room.y; y < room.y + room.height; y++) {
if (leftX >= 0) checkAndPlaceDoor(leftX, y);
if (rightX < width) checkAndPlaceDoor(rightX, y);
}
}
}

4
src/engine/world/pathfinding.ts
View File

@@ -49,8 +49,8 @@ export function findPathAStar(
return true; return true;
}; };
// Use rot-js A* pathfinding with 4-directional topology // Use rot-js A* pathfinding with 8-directional topology
const astar = new ROT.Path.AStar(end.x, end.y, passableCallback, { topology: 4 }); const astar = new ROT.Path.AStar(end.x, end.y, passableCallback, { topology: 8 });
const path: Vec2[] = []; const path: Vec2[] = [];

20
src/engine/world/world-logic.ts
View File

@@ -43,13 +43,21 @@ export function isBlocked(w: World, x: number, y: number, accessor: EntityAccess
if (!accessor) return false; if (!accessor) return false;
const actors = accessor.getActorsAt(x, y); const actors = accessor.getActorsAt(x, y);
return actors.some(a => a.category === "combatant"); if (actors.some(a => a.category === "combatant")) return true;
// Check for interactable entities (switches, etc.) that should block movement
if (accessor.context) {
const ecs = accessor.context;
const isInteractable = ecs.getEntitiesWith("position", "trigger").some(id => {
const p = ecs.getComponent(id, "position");
const t = ecs.getComponent(id, "trigger");
return p?.x === x && p?.y === y && t?.onInteract;
});
if (isInteractable) return true;
}
return false;
} }
export function isPlayerOnExit(w: World, accessor: EntityAccessor): boolean {
const p = accessor.getPlayer();
if (!p) return false;
return p.pos.x === w.exit.x && p.pos.y === w.exit.y;
}

313
src/rendering/DungeonRenderer.ts
View File

@@ -1,9 +1,10 @@
import Phaser from "phaser"; import Phaser from "phaser";
import { type World, type EntityId, type Vec2, type ActorType } from "../core/types"; import { type World, type EntityId, type Vec2, type ActorType } from "../core/types";
import { TileType } from "../core/terrain";
import { TILE_SIZE } from "../core/constants"; import { TILE_SIZE } from "../core/constants";
import { idx, isWall } from "../engine/world/world-logic"; import { idx, isWall } from "../engine/world/world-logic";
import { GAME_CONFIG } from "../core/config/GameConfig"; import { GAME_CONFIG } from "../core/config/GameConfig";
import { ALL_TEMPLATES } from "../core/config/Items";
import { FovManager } from "./FovManager"; import { FovManager } from "./FovManager";
import { MinimapRenderer } from "./MinimapRenderer"; import { MinimapRenderer } from "./MinimapRenderer";
import { FxRenderer } from "./FxRenderer"; import { FxRenderer } from "./FxRenderer";
@@ -29,6 +30,7 @@ export class DungeonRenderer {
private entityAccessor!: EntityAccessor; private entityAccessor!: EntityAccessor;
private ecsWorld!: ECSWorld; private ecsWorld!: ECSWorld;
private trapSprites: Map<number, Phaser.GameObjects.Sprite> = new Map(); private trapSprites: Map<number, Phaser.GameObjects.Sprite> = new Map();
private trackSprites: Phaser.GameObjects.Sprite[] = [];
constructor(scene: Phaser.Scene) { constructor(scene: Phaser.Scene) {
this.scene = scene; this.scene = scene;
@@ -49,6 +51,12 @@ export class DungeonRenderer {
} }
this.trapSprites.clear(); this.trapSprites.clear();
for (const sprite of this.trackSprites) {
sprite.destroy();
}
this.trackSprites = [];
this.trapSprites.clear();
for (const [, sprite] of this.enemySprites) { for (const [, sprite] of this.enemySprites) {
sprite.destroy(); sprite.destroy();
} }
@@ -67,29 +75,47 @@ export class DungeonRenderer {
// Setup Tilemap // Setup Tilemap
if (this.map) this.map.destroy(); if (this.map) this.map.destroy();
this.map = this.scene.make.tilemap({ this.map = this.scene.make.tilemap({
data: Array.from({ length: world.height }, (_, y) => tileWidth: TILE_SIZE,
Array.from({ length: world.width }, (_, x) => this.world.tiles[idx(this.world, x, y)]) tileHeight: TILE_SIZE,
), width: world.width,
tileWidth: 16, height: world.height
tileHeight: 16
}); });
const tileset = this.map.addTilesetImage("dungeon", "dungeon", 16, 16, 0, 0)!; const tileset = this.map.addTilesetImage("dungeon", "dungeon");
this.layer = this.map.createLayer(0, tileset, 0, 0)!; if (!tileset) {
console.error("[DungeonRenderer] FAILED to load tileset 'dungeon'!");
// Fallback or throw?
}
this.layer = this.map.createBlankLayer("floor", tileset || "dungeon")!;
if (this.layer) {
this.layer.setDepth(0); this.layer.setDepth(0);
this.layer.setVisible(true);
console.log(`[DungeonRenderer] Layer created. Size: ${world.width}x${world.height}`);
} else {
console.error("[DungeonRenderer] FAILED to create tilemap layer!");
}
// Initial tile states (hidden) let tilesPlaced = 0;
this.layer.forEachTile(tile => { for (let y = 0; y < world.height; y++) {
tile.setVisible(false); for (let x = 0; x < world.width; x++) {
}); const i = y * world.width + x;
const tile = world.tiles[i];
if (tile !== undefined && this.layer) {
this.layer.putTileAt(tile, x, y);
tilesPlaced++;
}
}
}
console.log(`[DungeonRenderer] Placed ${tilesPlaced} tiles.`);
this.fxRenderer.clearCorpses(); this.fxRenderer.clearCorpses();
// Ensure player sprite exists // Ensure player sprite exists
if (!this.playerSprite) { if (!this.playerSprite) {
this.playerSprite = this.scene.add.sprite(0, 0, "warrior", 0); this.playerSprite = this.scene.add.sprite(0, 0, "PriestessSouth");
this.playerSprite.setDepth(100); this.playerSprite.setDepth(100);
this.playerSprite.play('warrior-idle'); this.playerSprite.setDisplaySize(TILE_SIZE, TILE_SIZE); // Ensure it fits in 1 tile
// No animation for simple sprites for now
} }
this.minimapRenderer.positionMinimap(); this.minimapRenderer.positionMinimap();
@@ -109,27 +135,46 @@ export class DungeonRenderer {
} }
} }
// Create sprites for ECS trap entities // Create sprites for ECS entities with sprites (traps, mine carts, etc.)
if (this.ecsWorld) { if (this.ecsWorld) {
const traps = this.ecsWorld.getEntitiesWith("trigger", "position", "sprite"); console.log(`[DungeonRenderer] Creating ECS sprites...`);
for (const trapId of traps) { const spriteEntities = this.ecsWorld.getEntitiesWith("position", "sprite");
const pos = this.ecsWorld.getComponent(trapId, "position"); for (const entId of spriteEntities) {
const spriteData = this.ecsWorld.getComponent(trapId, "sprite"); // Skip combatants as they are handled separately (player and enemies)
const player = this.ecsWorld.getComponent(entId, "player");
if (player) continue;
const actorType = this.ecsWorld.getComponent(entId, "actorType");
if (actorType) continue;
const pos = this.ecsWorld.getComponent(entId, "position");
const spriteData = this.ecsWorld.getComponent(entId, "sprite");
if (pos && spriteData) { if (pos && spriteData) {
try {
const isStandalone = spriteData.texture === "mine_cart" || spriteData.texture === "ceramic_dragon_head" || spriteData.texture === "track_switch";
const sprite = this.scene.add.sprite( const sprite = this.scene.add.sprite(
pos.x * TILE_SIZE + TILE_SIZE / 2, pos.x * TILE_SIZE + TILE_SIZE / 2,
pos.y * TILE_SIZE + TILE_SIZE / 2, pos.y * TILE_SIZE + TILE_SIZE / 2,
spriteData.texture, spriteData.texture,
spriteData.index isStandalone ? undefined : (spriteData.index ?? 0)
); );
sprite.setDepth(5); // Below actors, above floor sprite.setDepth(5);
sprite.setVisible(false); // Hidden until FOV reveals sprite.setVisible(true); // Force visible for diagnostics
this.trapSprites.set(trapId, sprite); sprite.setAlpha(1.0); // Force opaque for diagnostics
sprite.setDisplaySize(TILE_SIZE, TILE_SIZE);
console.log(`[DungeonRenderer] Created sprite for ${spriteData.texture} at ${pos.x},${pos.y}`);
this.trapSprites.set(entId, sprite);
} catch (e) {
console.error(`[DungeonRenderer] Failed to create sprite for entity ${entId}:`, e);
} }
} }
} }
} }
// Render static tracks
this.renderTracks();
}
toggleMinimap() { toggleMinimap() {
@@ -161,12 +206,31 @@ export class DungeonRenderer {
return this.fovManager.seenArray; return this.fovManager.seenArray;
} }
private firstRender = true;
render(_playerPath: Vec2[]) { render(_playerPath: Vec2[]) {
if (!this.world || !this.layer) return; if (!this.world || !this.layer) return;
if (this.firstRender) {
console.log(`[DungeonRenderer] First render call... World: ${this.world.width}x${this.world.height}`);
this.firstRender = false;
}
const seen = this.fovManager.seenArray; const seen = this.fovManager.seenArray;
const visible = this.fovManager.visibleArray; const visible = this.fovManager.visibleArray;
// Pre-collect fire positions for efficient tile tinting
const firePositions = new Set<string>();
if (this.ecsWorld) {
const fires = this.ecsWorld.getEntitiesWith("position", "name");
for (const fid of fires) {
if (this.ecsWorld.getComponent(fid, "name")?.name === "Fire") {
const pos = this.ecsWorld.getComponent(fid, "position")!;
firePositions.add(`${pos.x},${pos.y}`);
}
}
}
// Update Tiles // Update Tiles
this.layer.forEachTile(tile => { this.layer.forEachTile(tile => {
const i = idx(this.world, tile.x, tile.y); const i = idx(this.world, tile.x, tile.y);
@@ -174,8 +238,6 @@ export class DungeonRenderer {
// Sync visual tile with logical tile (e.g. if grass was destroyed) // Sync visual tile with logical tile (e.g. if grass was destroyed)
if (tile.index !== worldTile) { if (tile.index !== worldTile) {
// We can safely update the index property for basic tile switching
// If we needed to change collision properties, we'd use putTileAt
tile.index = worldTile; tile.index = worldTile;
} }
@@ -189,6 +251,13 @@ export class DungeonRenderer {
if (isVis) { if (isVis) {
tile.alpha = 1.0; tile.alpha = 1.0;
tile.tint = 0xffffff; tile.tint = 0xffffff;
// Special effect for burning grass
if (firePositions.has(`${tile.x},${tile.y}`) && worldTile === TileType.GRASS) {
const flicker = 0.8 + Math.sin(this.scene.time.now / 120) * 0.2;
tile.tint = 0xff3333; // Bright red
tile.alpha = flicker;
}
} else { } else {
tile.alpha = isWall(this.world, tile.x, tile.y) ? 0.4 : 0.2; tile.alpha = isWall(this.world, tile.x, tile.y) ? 0.4 : 0.2;
tile.tint = 0x888888; tile.tint = 0x888888;
@@ -196,21 +265,68 @@ export class DungeonRenderer {
} }
}); });
// Update track sprites visibility
for (const sprite of this.trackSprites) {
const tx = Math.floor(sprite.x / TILE_SIZE);
const ty = Math.floor(sprite.y / TILE_SIZE);
const i = idx(this.world, tx, ty);
const isSeen = seen[i] === 1;
const isVis = visible[i] === 1;
sprite.setVisible(isSeen);
sprite.alpha = isVis ? 1.0 : 0.3;
}
// Update trap sprites visibility and appearance // Update trap sprites visibility and appearance
if (this.ecsWorld) { if (this.ecsWorld) {
for (const [trapId, sprite] of this.trapSprites) { for (const [trapId, sprite] of this.trapSprites) {
const pos = this.ecsWorld.getComponent(trapId, "position"); const pos = this.ecsWorld.getComponent(trapId, "position");
const spriteData = this.ecsWorld.getComponent(trapId, "sprite"); const spriteData = this.ecsWorld.getComponent(trapId, "sprite");
if (pos && spriteData) { // Handle missing components (entity destroyed)
if (!pos || !spriteData) {
sprite.destroy();
this.trapSprites.delete(trapId);
continue;
}
// Bounds check
if (pos.x < 0 || pos.x >= this.world.width || pos.y < 0 || pos.y >= this.world.height) {
sprite.setVisible(false);
continue;
}
const i = idx(this.world, pos.x, pos.y); const i = idx(this.world, pos.x, pos.y);
const isSeen = seen[i] === 1; const isSeen = seen[i] === 1;
const isVis = visible[i] === 1; const isVis = visible[i] === 1;
sprite.setVisible(isSeen); sprite.setVisible(isSeen);
// Update position (with simple smoothing)
const targetX = pos.x * TILE_SIZE + TILE_SIZE / 2;
const targetY = pos.y * TILE_SIZE + TILE_SIZE / 2;
if (sprite.x !== targetX || sprite.y !== targetY) {
// Check if it's far away (teleport) or nearby (tween)
const dist = Phaser.Math.Distance.Between(sprite.x, sprite.y, targetX, targetY);
if (dist > TILE_SIZE * 2) {
this.scene.tweens.killTweensOf(sprite);
sprite.setPosition(targetX, targetY);
} else if (!this.scene.tweens.isTweening(sprite)) {
this.scene.tweens.add({
targets: sprite,
x: targetX,
y: targetY,
duration: GAME_CONFIG.rendering.moveDuration,
ease: 'Power1'
});
}
}
// Update sprite frame in case trap was triggered // Update sprite frame in case trap was triggered
if (sprite.frame.name !== String(spriteData.index)) { const isStandalone = spriteData.texture === "mine_cart" || spriteData.texture === "ceramic_dragon_head";
if (!isStandalone && sprite.frame.name !== String(spriteData.index)) {
sprite.setFrame(spriteData.index); sprite.setFrame(spriteData.index);
} }
@@ -218,6 +334,30 @@ export class DungeonRenderer {
if (isSeen && !isVis) { if (isSeen && !isVis) {
sprite.setAlpha(0.4); sprite.setAlpha(0.4);
sprite.setTint(0x888888); sprite.setTint(0x888888);
} else {
// Flickering effect for Fire
const name = this.ecsWorld.getComponent(trapId, "name");
if (name?.name === "Fire") {
const flicker = 0.8 + Math.sin(this.scene.time.now / 100) * 0.2;
sprite.setAlpha(flicker);
sprite.setScale(0.9 + Math.sin(this.scene.time.now / 150) * 0.1);
// Tint based on underlying tile
const tileIdx = idx(this.world, pos.x, pos.y);
const worldTile = this.world.tiles[tileIdx];
if (worldTile === TileType.GRASS) {
sprite.setTint(0xff3300); // Bright red-orange for burning grass
} else if (worldTile === TileType.DOOR_CLOSED || worldTile === TileType.DOOR_OPEN) {
// Pulse between yellow and red for doors
const pulse = (Math.sin(this.scene.time.now / 150) + 1) / 2;
const r = 255;
const g = Math.floor(200 * (1 - pulse));
const b = 0;
sprite.setTint((r << 16) | (g << 8) | b);
} else {
sprite.setTint(0xffaa44); // Default orange
}
} else { } else {
sprite.setAlpha(1); sprite.setAlpha(1);
sprite.clearTint(); sprite.clearTint();
@@ -243,16 +383,36 @@ export class DungeonRenderer {
const ty = a.pos.y * TILE_SIZE + TILE_SIZE / 2; const ty = a.pos.y * TILE_SIZE + TILE_SIZE / 2;
if (this.playerSprite.x !== tx || this.playerSprite.y !== ty) { if (this.playerSprite.x !== tx || this.playerSprite.y !== ty) {
// Determine direction
const dx = tx - this.playerSprite.x;
const dy = ty - this.playerSprite.y;
if (Math.abs(dy) > Math.abs(dx)) {
if (dy < 0) this.playerSprite.setTexture("PriestessNorth");
else this.playerSprite.setTexture("PriestessSouth");
} else if (Math.abs(dx) > 0) {
if (dx > 0) this.playerSprite.setTexture("PriestessEast");
else this.playerSprite.setTexture("PriestessWest");
}
this.scene.tweens.add({ this.scene.tweens.add({
targets: this.playerSprite, targets: this.playerSprite,
x: tx, x: tx,
y: ty, y: ty,
duration: 120, duration: GAME_CONFIG.rendering.moveDuration,
ease: 'Quad.easeOut', ease: 'Quad.easeOut',
overwrite: true overwrite: true
}); });
} }
this.playerSprite.setVisible(true); this.playerSprite.setVisible(true);
// Burning status effect
const statusEffects = this.ecsWorld.getComponent(this.entityAccessor.playerId, "statusEffects");
if (statusEffects?.effects.some(e => e.type === "burning")) {
this.playerSprite.setTint(0xff6600);
} else {
this.playerSprite.clearTint();
}
} }
continue; continue;
} }
@@ -285,13 +445,21 @@ export class DungeonRenderer {
targets: sprite, targets: sprite,
x: tx, x: tx,
y: ty, y: ty,
duration: 120, duration: GAME_CONFIG.rendering.moveDuration,
ease: 'Quad.easeOut', ease: 'Quad.easeOut',
overwrite: true overwrite: true
}); });
} }
} }
// Burning status effect
const statusEffects = this.ecsWorld.getComponent(a.id, "statusEffects");
if (statusEffects?.effects.some(e => e.type === "burning")) {
sprite.setTint(0xff6600);
} else if (sprite) {
sprite.clearTint();
}
} else if (a.category === "collectible") { } else if (a.category === "collectible") {
if (a.type === "exp_orb") { if (a.type === "exp_orb") {
if (!isVis) continue; if (!isVis) continue;
@@ -376,7 +544,19 @@ export class DungeonRenderer {
this.fxRenderer.showHeal(x, y, amount); this.fxRenderer.showHeal(x, y, amount);
} }
spawnCorpse(x: number, y: number, type: ActorType) { spawnCorpse(x: number, y: number, type: ActorType, targetId?: EntityId) {
if (targetId !== undefined) {
if (targetId === this.entityAccessor.playerId) {
if (this.playerSprite) {
this.playerSprite.setVisible(false);
}
} else {
const sprite = this.enemySprites.get(targetId);
if (sprite) {
sprite.setVisible(false);
}
}
}
this.fxRenderer.spawnCorpse(x, y, type); this.fxRenderer.spawnCorpse(x, y, type);
} }
@@ -404,7 +584,7 @@ export class DungeonRenderer {
this.fxRenderer.showFloatingText(x, y, message, color); this.fxRenderer.showFloatingText(x, y, message, color);
} }
showProjectile(from: Vec2, to: Vec2, itemId: string, onComplete: () => void) { showProjectile(from: Vec2, to: Vec2, texture: string, frame: number, onComplete: () => void) {
// World coords // World coords
const startX = from.x * TILE_SIZE + TILE_SIZE / 2; const startX = from.x * TILE_SIZE + TILE_SIZE / 2;
const startY = from.y * TILE_SIZE + TILE_SIZE / 2; const startY = from.y * TILE_SIZE + TILE_SIZE / 2;
@@ -412,15 +592,17 @@ export class DungeonRenderer {
const endY = to.y * TILE_SIZE + TILE_SIZE / 2; const endY = to.y * TILE_SIZE + TILE_SIZE / 2;
// Create sprite // Create sprite
// Look up sprite index from config const isStandalone = frame === undefined || frame === 0;
const itemConfig = ALL_TEMPLATES[itemId as keyof typeof ALL_TEMPLATES]; const sprite = isStandalone
const texture = itemConfig?.textureKey ?? "items"; ? this.scene.add.sprite(startX, startY, texture)
const frame = itemConfig?.spriteIndex ?? 0; : this.scene.add.sprite(startX, startY, texture, frame);
// Ensure all sprites fit in a single 16x16 tile.
sprite.setDisplaySize(TILE_SIZE, TILE_SIZE);
// Use 'items' spritesheet
const sprite = this.scene.add.sprite(startX, startY, texture, frame);
sprite.setDepth(2000); sprite.setDepth(2000);
// Rotate? // Rotate?
const angle = Phaser.Math.Angle.Between(startX, startY, endX, endY); const angle = Phaser.Math.Angle.Between(startX, startY, endX, endY);
sprite.setRotation(angle + Math.PI / 4); // Adjust for sprite orientation (diagonal usually) sprite.setRotation(angle + Math.PI / 4); // Adjust for sprite orientation (diagonal usually)
@@ -445,4 +627,59 @@ export class DungeonRenderer {
shakeCamera() { shakeCamera() {
this.scene.cameras.main.shake(100, 0.01); this.scene.cameras.main.shake(100, 0.01);
} }
private renderTracks() {
if (!this.world.trackPath || this.world.trackPath.length === 0) return;
const path = this.world.trackPath;
for (let i = 0; i < path.length; i++) {
const curr = path[i];
const prev = i > 0 ? path[i - 1] : null;
const next = i < path.length - 1 ? path[i + 1] : null;
let spriteKey = "track_straight";
let angle = 0;
if (prev && next) {
const dx1 = curr.x - prev.x;
const dy1 = curr.y - prev.y;
const dx2 = next.x - curr.x;
const dy2 = next.y - curr.y;
if (dx1 === dx2 && dy1 === dy2) {
// Straight
spriteKey = "track_straight";
angle = dx1 === 0 ? 0 : 90; // Asset is vertical (0 deg), rotate to 90 for horizontal
} else {
// Corner
spriteKey = "track_corner";
const p = { dx: prev.x - curr.x, dy: prev.y - curr.y };
const n = { dx: next.x - curr.x, dy: next.y - curr.y };
// Top-Right: 180, Right-Bottom: 270, Bottom-Left: 0, Left-Top: 90
if ((p.dy === -1 && n.dx === 1) || (n.dy === -1 && p.dx === 1)) angle = 180;
else if ((p.dx === 1 && n.dy === 1) || (n.dx === 1 && p.dy === 1)) angle = 270;
else if ((p.dy === 1 && n.dx === -1) || (n.dy === 1 && p.dx === -1)) angle = 0;
else if ((p.dx === -1 && n.dy === -1) || (n.dx === -1 && p.dy === -1)) angle = 90;
}
} else if (next) {
spriteKey = "track_straight";
angle = (next.x === curr.x) ? 0 : 90;
} else if (prev) {
spriteKey = "track_straight";
angle = (prev.x === curr.x) ? 0 : 90;
}
const sprite = this.scene.add.sprite(
curr.x * TILE_SIZE + TILE_SIZE / 2,
curr.y * TILE_SIZE + TILE_SIZE / 2,
spriteKey
);
sprite.setAngle(angle);
sprite.setDisplaySize(TILE_SIZE, TILE_SIZE);
sprite.setDepth(2);
sprite.setVisible(false);
this.trackSprites.push(sprite);
}
}
} }

6
src/rendering/FovManager.ts
View File

@@ -13,6 +13,7 @@ export class FovManager {
private visibleStrength!: Float32Array; private visibleStrength!: Float32Array;
private worldWidth: number = 0; private worldWidth: number = 0;
private worldHeight: number = 0; private worldHeight: number = 0;
private currentOrigin: { x: number; y: number } = { x: 0, y: 0 };
initialize(world: World) { initialize(world: World) {
this.worldWidth = world.width; this.worldWidth = world.width;
@@ -22,6 +23,10 @@ export class FovManager {
this.visibleStrength = new Float32Array(world.width * world.height); this.visibleStrength = new Float32Array(world.width * world.height);
this.fov = new FOV.PreciseShadowcasting((x: number, y: number) => { this.fov = new FOV.PreciseShadowcasting((x: number, y: number) => {
// Best practice: Origin is always transparent to itself,
// otherwise vision is blocked if standing on an opaque tile (like a doorway).
if (x === this.currentOrigin.x && y === this.currentOrigin.y) return true;
if (!inBounds(world, x, y)) return false; if (!inBounds(world, x, y)) return false;
const idx = y * world.width + x; const idx = y * world.width + x;
return !blocksSight(world.tiles[idx]); return !blocksSight(world.tiles[idx]);
@@ -29,6 +34,7 @@ export class FovManager {
} }
compute(world: World, origin: { x: number; y: number }) { compute(world: World, origin: { x: number; y: number }) {
this.currentOrigin = origin;
this.visible.fill(0); this.visible.fill(0);
this.visibleStrength.fill(0); this.visibleStrength.fill(0);

13
src/rendering/FxRenderer.ts
View File

@@ -132,7 +132,7 @@ export class FxRenderer {
} }
spawnCorpse(x: number, y: number, type: ActorType) { spawnCorpse(x: number, y: number, type: ActorType) {
const textureKey = type === "player" ? "warrior" : type; const textureKey = type === "player" ? "PriestessSouth" : type;
const corpse = this.scene.add.sprite( const corpse = this.scene.add.sprite(
x * TILE_SIZE + TILE_SIZE / 2, x * TILE_SIZE + TILE_SIZE / 2,
@@ -141,7 +141,18 @@ export class FxRenderer {
0 0
); );
corpse.setDepth(50); corpse.setDepth(50);
corpse.setDisplaySize(TILE_SIZE, TILE_SIZE); // All corpses should be tile-sized
// Only play animation if it's not a priestess sprite
if (!textureKey.startsWith("Priestess")) {
corpse.play(`${textureKey}-die`); corpse.play(`${textureKey}-die`);
} else {
// Maybe rotate or fade for visual interest since there's no animation
corpse.setAngle(90);
}
this.corpseSprites.push({ sprite: corpse, x, y }); this.corpseSprites.push({ sprite: corpse, x, y });
} }

25
src/rendering/ItemSpriteFactory.ts
View File

@@ -32,10 +32,21 @@ export class ItemSpriteFactory {
} }
// Create main item sprite // Create main item sprite
const sprite = scene.add.sprite(0, 0, item.textureKey, item.spriteIndex); // Standalone images don't use frame indices
const isStandalone = item.spriteIndex === undefined || item.spriteIndex === 0;
const sprite = isStandalone
? scene.add.sprite(0, 0, item.textureKey)
: scene.add.sprite(0, 0, item.textureKey, item.spriteIndex);
if (isStandalone) {
sprite.setDisplaySize(16 * scale, 16 * scale);
} else {
sprite.setScale(scale); sprite.setScale(scale);
}
container.add(sprite); container.add(sprite);
// Add upgrade level badge if item has been upgraded // Add upgrade level badge if item has been upgraded
if (item.upgradeLevel && item.upgradeLevel > 0) { if (item.upgradeLevel && item.upgradeLevel > 0) {
const badge = this.createUpgradeBadge(scene, item.upgradeLevel, scale); const badge = this.createUpgradeBadge(scene, item.upgradeLevel, scale);
@@ -56,9 +67,19 @@ export class ItemSpriteFactory {
y: number, y: number,
scale: number = 1 scale: number = 1
): Phaser.GameObjects.Sprite { ): Phaser.GameObjects.Sprite {
const sprite = scene.add.sprite(x, y, item.textureKey, item.spriteIndex); const isStandalone = item.spriteIndex === undefined || item.spriteIndex === 0;
const sprite = isStandalone
? scene.add.sprite(x, y, item.textureKey)
: scene.add.sprite(x, y, item.textureKey, item.spriteIndex);
if (isStandalone) {
sprite.setDisplaySize(16 * scale, 16 * scale);
} else {
sprite.setScale(scale); sprite.setScale(scale);
}
return sprite; return sprite;
} }
/** /**

52
src/rendering/__tests__/DungeonRenderer.test.ts
View File

@@ -9,10 +9,12 @@ vi.mock('phaser', () => {
play: vi.fn().mockReturnThis(), play: vi.fn().mockReturnThis(),
setPosition: vi.fn().mockReturnThis(), setPosition: vi.fn().mockReturnThis(),
setVisible: vi.fn().mockReturnThis(), setVisible: vi.fn().mockReturnThis(),
setDisplaySize: vi.fn().mockReturnThis(),
destroy: vi.fn(), destroy: vi.fn(),
frame: { name: '0' }, frame: { name: '0' },
setFrame: vi.fn(), setFrame: vi.fn(),
setAlpha: vi.fn(), setAlpha: vi.fn(),
setAngle: vi.fn(),
clearTint: vi.fn(), clearTint: vi.fn(),
}; };
@@ -89,10 +91,12 @@ describe('DungeonRenderer', () => {
play: vi.fn().mockReturnThis(), play: vi.fn().mockReturnThis(),
setPosition: vi.fn().mockReturnThis(), setPosition: vi.fn().mockReturnThis(),
setVisible: vi.fn().mockReturnThis(), setVisible: vi.fn().mockReturnThis(),
setDisplaySize: vi.fn().mockReturnThis(),
destroy: vi.fn(), destroy: vi.fn(),
frame: { name: '0' }, frame: { name: '0' },
setFrame: vi.fn(), setFrame: vi.fn(),
setAlpha: vi.fn(), setAlpha: vi.fn(),
setAngle: vi.fn(),
clearTint: vi.fn(), clearTint: vi.fn(),
})), })),
circle: vi.fn().mockReturnValue({ circle: vi.fn().mockReturnValue({
@@ -134,6 +138,14 @@ describe('DungeonRenderer', () => {
setDepth: vi.fn(), setDepth: vi.fn(),
forEachTile: vi.fn(), forEachTile: vi.fn(),
}), }),
createBlankLayer: vi.fn().mockReturnValue({
setDepth: vi.fn().mockReturnThis(),
forEachTile: vi.fn().mockReturnThis(),
putTileAt: vi.fn(),
setScale: vi.fn().mockReturnThis(),
setScrollFactor: vi.fn().mockReturnThis(),
setVisible: vi.fn().mockReturnThis(),
}),
destroy: vi.fn(), destroy: vi.fn(),
}), }),
}, },
@@ -152,6 +164,7 @@ describe('DungeonRenderer', () => {
height: 10, height: 10,
tiles: new Array(100).fill(0), tiles: new Array(100).fill(0),
exit: { x: 9, y: 9 }, exit: { x: 9, y: 9 },
trackPath: []
}; };
ecsWorld = new ECSWorld(); ecsWorld = new ECSWorld();
accessor = new EntityAccessor(mockWorld, 1 as EntityId, ecsWorld); accessor = new EntityAccessor(mockWorld, 1 as EntityId, ecsWorld);
@@ -246,4 +259,43 @@ describe('DungeonRenderer', () => {
// Should NOT tween because it's the first spawn // Should NOT tween because it's the first spawn
expect(mockScene.tweens.add).not.toHaveBeenCalled(); expect(mockScene.tweens.add).not.toHaveBeenCalled();
}); });
it('should hide the original sprite when spawnCorpse is called with targetId', () => {
renderer.initializeFloor(mockWorld, ecsWorld, accessor);
// Add a rat
const enemyId = 100 as EntityId;
ecsWorld.addComponent(enemyId, "position", { x: 3, y: 1 });
ecsWorld.addComponent(enemyId, "actorType", { type: "rat" });
ecsWorld.addComponent(enemyId, "stats", { hp: 10, maxHp: 10 } as any);
(renderer as any).fovManager.visibleArray[1 * mockWorld.width + 3] = 1;
renderer.render([]);
// Verify sprite was created and is visible
const sprite = (renderer as any).enemySprites.get(enemyId);
expect(sprite).toBeDefined();
expect(sprite.setVisible).toHaveBeenCalledWith(true);
// Call spawnCorpse with targetId
renderer.spawnCorpse(3, 1, 'rat', enemyId);
// Verify original sprite was hidden
expect(sprite.setVisible).toHaveBeenCalledWith(false);
});
it('should hide the player sprite when spawnCorpse is called with playerId', () => {
renderer.initializeFloor(mockWorld, ecsWorld, accessor);
// Verify player sprite was created and is visible
const playerSprite = (renderer as any).playerSprite;
expect(playerSprite).toBeDefined();
playerSprite.setVisible(true); // Force visible for test
// Call spawnCorpse with playerId
renderer.spawnCorpse(1, 1, 'player', accessor.playerId);
// Verify player sprite was hidden
expect(playerSprite.setVisible).toHaveBeenCalledWith(false);
});
}); });

65
src/rendering/__tests__/FovManager.repro.test.ts Normal file
View File

@@ -0,0 +1,65 @@
import { describe, it, expect, beforeEach, vi } from 'vitest';
// Mock Phaser
vi.mock('phaser', () => ({
default: {
Math: {
Clamp: (v: number, min: number, max: number) => Math.min(Math.max(v, min), max)
}
}
}));
import { FovManager } from '../FovManager';
import { TileType } from '../../core/terrain';
import { type World } from '../../core/types';
describe('FovManager Repro', () => {
let fovManager: FovManager;
let world: World;
beforeEach(() => {
world = {
width: 11,
height: 11,
tiles: new Array(11 * 11).fill(TileType.EMPTY),
exit: { x: 10, y: 10 },
trackPath: []
};
fovManager = new FovManager();
});
it('should see through a doorway when standing in it (open door)', () => {
// Create a vertical wall at x=5 with a door at (5,5)
for (let y = 0; y < 11; y++) {
if (y === 5) {
world.tiles[y * 11 + 5] = TileType.DOOR_OPEN;
} else {
world.tiles[y * 11 + 5] = TileType.WALL;
}
}
fovManager.initialize(world);
fovManager.compute(world, { x: 5, y: 5 });
expect(fovManager.isVisible(4, 5)).toBe(true);
expect(fovManager.isVisible(6, 5)).toBe(true);
});
it('should NOT be blind when standing on an opaque tile (like a closed door) AFTER FIX', () => {
// Create a horizontal wall with a closed door at (5,5)
for (let x = 0; x < 11; x++) {
if (x === 5) {
world.tiles[5 * 11 + x] = TileType.DOOR_CLOSED;
} else {
world.tiles[5 * 11 + x] = TileType.WALL;
}
}
fovManager.initialize(world);
fovManager.compute(world, { x: 5, y: 5 });
// AFTER FIX: should see tiles on both sides of the door
expect(fovManager.isVisible(5, 4)).toBe(true);
expect(fovManager.isVisible(5, 6)).toBe(true);
});
});

2
src/rendering/__tests__/FxRenderer.test.ts
View File

@@ -11,6 +11,7 @@ vi.mock('phaser', () => {
setAlpha: vi.fn().mockReturnThis(), setAlpha: vi.fn().mockReturnThis(),
setTint: vi.fn().mockReturnThis(), setTint: vi.fn().mockReturnThis(),
clearTint: vi.fn().mockReturnThis(), clearTint: vi.fn().mockReturnThis(),
setDisplaySize: vi.fn().mockReturnThis(),
destroy: vi.fn(), destroy: vi.fn(),
}; };
@@ -42,6 +43,7 @@ describe('FxRenderer', () => {
setAlpha: vi.fn().mockReturnThis(), setAlpha: vi.fn().mockReturnThis(),
setTint: vi.fn().mockReturnThis(), setTint: vi.fn().mockReturnThis(),
clearTint: vi.fn().mockReturnThis(), clearTint: vi.fn().mockReturnThis(),
setDisplaySize: vi.fn().mockReturnThis(),
destroy: vi.fn(), destroy: vi.fn(),
})), })),
text: vi.fn(() => ({ text: vi.fn(() => ({

745
src/scenes/GameScene.ts
View File

@@ -10,83 +10,104 @@ import {
type RangedWeaponItem, type RangedWeaponItem,
} from "../core/types"; } from "../core/types";
import { TILE_SIZE } from "../core/constants"; import { TILE_SIZE } from "../core/constants";
import { inBounds, isBlocked, isPlayerOnExit, tryDestructTile } from "../engine/world/world-logic"; import { isBlocked, tryDestructTile } from "../engine/world/world-logic";
import { findPathAStar } from "../engine/world/pathfinding";
import { applyAction, stepUntilPlayerTurn } from "../engine/simulation/simulation"; import { applyAction, stepUntilPlayerTurn } from "../engine/simulation/simulation";
import { generateWorld } from "../engine/world/generator"; import { generateWorld } from "../engine/world/generator";
import { DungeonRenderer } from "../rendering/DungeonRenderer"; import { DungeonRenderer } from "../rendering/DungeonRenderer";
import { Prefabs } from "../engine/ecs/Prefabs";
import { GAME_CONFIG } from "../core/config/GameConfig"; import { GAME_CONFIG } from "../core/config/GameConfig";
import { ALL_TEMPLATES } from "../core/config/Items";
import { EntityAccessor } from "../engine/EntityAccessor"; import { EntityAccessor } from "../engine/EntityAccessor";
import { ProgressionManager } from "../engine/ProgressionManager"; import { ProgressionManager } from "../engine/ProgressionManager";
import GameUI from "../ui/GameUI"; import GameUI from "../ui/GameUI";
import { CameraController } from "./systems/CameraController"; import { CameraController } from "./systems/CameraController";
import { ItemManager } from "./systems/ItemManager"; import { ItemManager } from "./systems/ItemManager";
import { TargetingSystem } from "./systems/TargetingSystem"; import { TargetingSystem } from "./systems/TargetingSystem";
import { UpgradeManager } from "../engine/systems/UpgradeManager";
import { deEquipItem, equipItem } from "../engine/systems/EquipmentService";
import { InventoryOverlay } from "../ui/components/InventoryOverlay";
import { ECSWorld } from "../engine/ecs/World"; import { ECSWorld } from "../engine/ecs/World";
import { SystemRegistry } from "../engine/ecs/System"; import { SystemRegistry } from "../engine/ecs/System";
import { TriggerSystem } from "../engine/ecs/systems/TriggerSystem"; import { TriggerSystem } from "../engine/ecs/systems/TriggerSystem";
import { StatusEffectSystem } from "../engine/ecs/systems/StatusEffectSystem"; import { StatusEffectSystem, applyStatusEffect } from "../engine/ecs/systems/StatusEffectSystem";
import { MineCartSystem } from "../engine/ecs/systems/MineCartSystem";
import { TileType } from "../core/terrain";
import { FireSystem } from "../engine/ecs/systems/FireSystem";
import { EventBus } from "../engine/ecs/EventBus"; import { EventBus } from "../engine/ecs/EventBus";
import { generateLoot } from "../engine/systems/LootSystem"; import { generateLoot } from "../engine/systems/LootSystem";
import { renderSimEvents, getEffectColor, getEffectName, type EventRenderCallbacks } from "./systems/EventRenderer"; import { getEffectColor, getEffectName } from "./systems/EventRenderer";
import { calculateDamage } from "../engine/gameplay/CombatLogic"; import { calculateDamage, getConeTiles } from "../engine/gameplay/CombatLogic";
import { GameInput } from "../engine/input/GameInput";
import { GameRenderer } from "./rendering/GameRenderer";
import { PlayerInputHandler } from "./systems/PlayerInputHandler";
import { GameEventHandler } from "./systems/GameEventHandler";
export class GameScene extends Phaser.Scene { export class GameScene extends Phaser.Scene {
private world!: World; public world!: World;
private playerId!: EntityId; public playerId!: EntityId;
private floorIndex = 1; private floorIndex = 1;
private runState: RunState = { public runState: RunState = {
stats: { ...GAME_CONFIG.player.initialStats }, stats: { ...GAME_CONFIG.player.initialStats },
inventory: { gold: 0, items: [] } inventory: { gold: 0, items: [] },
seed: Math.floor(Math.random() * 1000000),
lastReloadableWeaponId: null
}; };
private cursors!: Phaser.Types.Input.Keyboard.CursorKeys; public gameInput!: GameInput;
private playerPath: Vec2[] = [];
private awaitingPlayer = false; public playerPath: Vec2[] = [];
public awaitingPlayer = false;
private lastMoveTime = 0;
// Sub-systems // Sub-systems
private dungeonRenderer!: DungeonRenderer; public dungeonRenderer!: DungeonRenderer;
private cameraController!: CameraController; private gameRenderer!: GameRenderer;
private itemManager!: ItemManager; public cameraController!: CameraController;
private isMenuOpen = false; public itemManager!: ItemManager;
private isInventoryOpen = false; public isMenuOpen = false;
private isCharacterOpen = false; public isInventoryOpen = false;
public isCharacterOpen = false;
private entityAccessor!: EntityAccessor; public entityAccessor!: EntityAccessor;
private progressionManager: ProgressionManager = new ProgressionManager(); public progressionManager: ProgressionManager = new ProgressionManager();
private targetingSystem!: TargetingSystem; public targetingSystem!: TargetingSystem;
// ECS for traps and status effects // ECS for traps and status effects
private ecsWorld!: ECSWorld; public ecsWorld!: ECSWorld;
private ecsRegistry!: SystemRegistry; private ecsRegistry!: SystemRegistry;
private ecsEventBus!: EventBus; private ecsEventBus!: EventBus;
private turnCount = 0; // Track turns for mana regen private turnCount = 0; // Track turns for mana regen
// New Handlers
private playerInputHandler!: PlayerInputHandler;
private gameEventHandler!: GameEventHandler;
constructor() { constructor() {
super("GameScene"); super("GameScene");
} }
create() { create() {
this.cursors = this.input.keyboard!.createCursorKeys(); this.cameras.main.setBackgroundColor(0x1a1a1a);
// Camera
this.cameras.main.setZoom(GAME_CONFIG.rendering.cameraZoom); this.cameras.main.setZoom(GAME_CONFIG.rendering.cameraZoom);
this.cameras.main.fadeIn(1000, 0, 0, 0); this.cameras.main.fadeIn(500, 0, 0, 0);
// Initialize Sub-systems // Initialize Sub-systems
this.dungeonRenderer = new DungeonRenderer(this); this.dungeonRenderer = new DungeonRenderer(this);
this.gameRenderer = new GameRenderer(this.dungeonRenderer);
this.cameraController = new CameraController(this.cameras.main); this.cameraController = new CameraController(this.cameras.main);
// Note: itemManager is temporary instantiated with undefined entityAccessor until loadFloor
this.itemManager = new ItemManager(this.world, this.entityAccessor); this.itemManager = new ItemManager(this.world, this.entityAccessor);
this.targetingSystem = new TargetingSystem(this); this.targetingSystem = new TargetingSystem(this);
// Initialize Input
this.gameInput = new GameInput(this);
// Initialize Handlers
this.playerInputHandler = new PlayerInputHandler(this);
this.gameEventHandler = new GameEventHandler(this);
// Launch UI Scene // Launch UI Scene
this.scene.launch("GameUI"); this.scene.launch("GameUI");
@@ -104,417 +125,21 @@ export class GameScene extends Phaser.Scene {
// Load initial floor // Load initial floor
this.loadFloor(1); this.loadFloor(1);
// Menu Inputs this.playerInputHandler.registerListeners();
this.input.keyboard?.on("keydown-I", () => { this.gameEventHandler.registerListeners();
if (this.dungeonRenderer.isMinimapVisible()) {
this.dungeonRenderer.toggleMinimap();
}
this.events.emit("toggle-menu");
this.emitUIUpdate();
});
this.input.keyboard?.on("keydown-ESC", () => {
this.events.emit("close-menu");
if (this.dungeonRenderer.isMinimapVisible()) {
this.dungeonRenderer.toggleMinimap();
}
});
this.input.keyboard?.on("keydown-M", () => {
this.events.emit("close-menu");
this.dungeonRenderer.toggleMinimap();
});
this.input.keyboard?.on("keydown-B", () => {
this.events.emit("toggle-inventory");
});
this.input.keyboard?.on("keydown-C", () => {
this.events.emit("toggle-character");
});
this.input.keyboard?.on("keydown-R", () => {
const player = this.entityAccessor.getPlayer();
if (!player || !player.inventory) return;
// Check for active targeted item first
const activeId = this.targetingSystem.itemId;
let weaponToReload: RangedWeaponItem | null = null;
if (activeId) {
const item = player.inventory.items.find(it => it.id === activeId);
if (item && item.type === "Weapon" && item.weaponType === "ranged") {
weaponToReload = item;
}
} }
// If no active targeted weapon, check main hand update(_time: number, _delta: number) {
if (!weaponToReload && player.equipment?.mainHand) { // Handle camera panning via arrow keys
const item = player.equipment.mainHand; const cameraPan = this.gameInput.getCameraPanState();
if (item.type === "Weapon" && item.weaponType === "ranged") { if (cameraPan.dx !== 0 || cameraPan.dy !== 0) {
weaponToReload = item; // Sensitivity factor for smooth panning
} // Note: we invert cameraPan dx/dy because handlePan subtracts from scroll (standard for drag)
// but for keys we want to move "in the direction" of the key.
const panSpeed = 12;
this.cameraController.handlePan(-cameraPan.dx * panSpeed, -cameraPan.dy * panSpeed);
} }
if (weaponToReload) {
this.startReload(player, weaponToReload);
}
});
this.input.keyboard?.on("keydown-SPACE", () => {
if (!this.awaitingPlayer) return;
if (this.isMenuOpen || this.isInventoryOpen || this.dungeonRenderer.isMinimapVisible()) return;
this.commitPlayerAction({ type: "wait" });
});
// Listen for Map button click from UI
this.events.on("toggle-minimap", () => {
this.dungeonRenderer.toggleMinimap();
});
// Listen for UI update requests
this.events.on("request-ui-update", () => {
this.emitUIUpdate();
});
// Listen for game restart
this.events.on("restart-game", () => {
this.restartGame();
});
this.events.on("allocate-stat", (statName: string) => {
const player = this.entityAccessor.getPlayer();
if (player) {
this.progressionManager.allocateStat(player, statName);
this.emitUIUpdate();
}
});
this.events.on("allocate-passive", (nodeId: string) => {
const player = this.entityAccessor.getPlayer();
if (player) {
this.progressionManager.allocatePassive(player, nodeId);
this.emitUIUpdate();
}
});
this.events.on("player-wait", () => {
if (!this.awaitingPlayer) return;
if (this.isMenuOpen || this.isInventoryOpen || this.dungeonRenderer.isMinimapVisible()) return;
this.commitPlayerAction({ type: "wait" });
});
this.events.on("player-search", () => {
if (!this.awaitingPlayer) return;
if (this.isMenuOpen || this.isInventoryOpen || this.dungeonRenderer.isMinimapVisible()) return;
console.log("Player searching...");
this.commitPlayerAction({ type: "wait" });
});
this.events.on("use-item", (data: { itemId: string }) => {
if (!this.awaitingPlayer) return;
const player = this.entityAccessor.getPlayer();
if (!player || !player.inventory) return;
const itemIdx = player.inventory.items.findIndex(it => it.id === data.itemId);
if (itemIdx === -1) return;
const item = player.inventory.items[itemIdx];
// Ranged Weapon Logic
if (item.type === "Weapon" && item.weaponType === "ranged") {
// Check Ammo
if (item.currentAmmo <= 0) {
if (item.reloadingTurnsLeft > 0) {
this.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, "Reloading...", "#aaaaaa");
return;
}
// Try Reload
this.startReload(player, item);
return;
}
// Is it already reloading?
if (item.reloadingTurnsLeft > 0) {
this.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, "Reloading...", "#aaaaaa");
return;
}
// Has ammo, start targeting
if (this.targetingSystem.isActive && this.targetingSystem.itemId === item.id) {
// Already targeting - execute shoot
if (this.targetingSystem.cursorPos) {
this.executeThrow();
}
return;
}
const { x: tx, y: ty } = this.getPointerTilePos(this.input.activePointer);
this.targetingSystem.startTargeting(
item.id,
player.pos,
this.world,
this.entityAccessor,
this.playerId,
this.dungeonRenderer.seenArray,
this.world.width,
{ x: tx, y: ty }
);
this.emitUIUpdate();
return;
}
// Upgrade Scroll Logic
if (item.id === "upgrade_scroll") {
const uiScene = this.scene.get("GameUI") as GameUI;
// Access the public inventory component
const inventoryOverlay = uiScene.inventory;
if (inventoryOverlay && inventoryOverlay instanceof InventoryOverlay) {
// Trigger upgrade mode
inventoryOverlay.enterUpgradeMode((targetItem: any) => {
const success = UpgradeManager.applyUpgrade(targetItem);
if (success) {
// Consume scroll logic handling stacking
const scrollItem = player.inventory?.items.find(it => it.id === "upgrade_scroll");
if (scrollItem) {
if (scrollItem.stackable && scrollItem.quantity && scrollItem.quantity > 1) {
scrollItem.quantity--;
} else {
this.itemManager.removeFromInventory(player, "upgrade_scroll");
}
this.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, "Upgraded!", "#ffd700");
}
inventoryOverlay.cancelUpgradeMode();
this.emitUIUpdate();
this.commitPlayerAction({ type: "wait" });
} else {
// Should technically be prevented by UI highlights, but safety check
this.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, "Cannot upgrade!", "#ff0000");
inventoryOverlay.cancelUpgradeMode();
this.emitUIUpdate();
}
});
this.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, "Select Item to Upgrade", "#ffffff");
}
return;
}
const result = this.itemManager.handleUse(data.itemId, player);
if (result.success && result.consumed) {
const healAmount = player.stats.maxHp - player.stats.hp; // Already healed by manager
const actualHeal = Math.min(healAmount, player.stats.hp);
this.dungeonRenderer.showHeal(player.pos.x, player.pos.y, actualHeal);
this.commitPlayerAction({ type: "wait" });
this.emitUIUpdate();
} else if (result.success && !result.consumed) {
// Throwable item - start targeting
if (this.targetingSystem.isActive && this.targetingSystem.itemId === item.id) {
// Already targeting - execute throw
if (this.targetingSystem.cursorPos) {
this.executeThrow();
}
return;
}
const { x: tx, y: ty } = this.getPointerTilePos(this.input.activePointer);
this.targetingSystem.startTargeting(
item.id,
player.pos,
this.world,
this.entityAccessor,
this.playerId,
this.dungeonRenderer.seenArray,
this.world.width,
{ x: tx, y: ty }
);
this.emitUIUpdate();
}
});
this.events.on("drop-item", (data: { itemId: string, pointerX: number, pointerY: number }) => {
if (!this.awaitingPlayer) return;
const player = this.entityAccessor.getPlayer();
if (!player || !player.inventory) return;
const item = this.itemManager.getItem(player, data.itemId);
if (!item) return;
// Determine drop position based on pointer or player pos
let dropPos = { x: player.pos.x, y: player.pos.y };
if (data.pointerX !== undefined && data.pointerY !== undefined) {
const tilePos = this.getPointerTilePos({ x: data.pointerX, y: data.pointerY } as Phaser.Input.Pointer);
// Limit drop distance to 1 tile from player for balance/fairness
const dx = Math.sign(tilePos.x - player.pos.x);
const dy = Math.sign(tilePos.y - player.pos.y);
const targetX = player.pos.x + dx;
const targetY = player.pos.y + dy;
if (inBounds(this.world, targetX, targetY) && !isBlocked(this.world, targetX, targetY, this.entityAccessor)) {
dropPos = { x: targetX, y: targetY };
}
}
// Remove from inventory and spawn in world
if (this.itemManager.removeFromInventory(player, data.itemId)) {
this.itemManager.spawnItem(item, dropPos);
const quantityText = (item.quantity && item.quantity > 1) ? ` x${item.quantity}` : "";
this.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, `Dropped ${item.name}${quantityText}`, "#aaaaaa");
this.emitUIUpdate();
}
});
this.events.on("equip-item", (data: { itemId: string, slotKey: string }) => {
const player = this.entityAccessor.getPlayer();
if (!player || !player.inventory) return;
const item = player.inventory.items.find(it => it.id === data.itemId);
if (!item) return;
const result = equipItem(player, item, data.slotKey as any);
if (!result.success) {
this.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, result.message ?? "Cannot equip!", "#ff0000");
return;
}
this.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, `Equipped ${item.name}`, "#d4af37");
this.emitUIUpdate();
});
this.events.on("de-equip-item", (data: { slotKey: string }) => {
const player = this.entityAccessor.getPlayer();
if (!player || !player.equipment) return;
const removedItem = deEquipItem(player, data.slotKey as any);
if (removedItem) {
this.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, `De-equipped ${removedItem.name}`, "#aaaaaa");
this.emitUIUpdate();
}
});
// Right Clicks to cancel targeting
this.input.on('pointerdown', (p: Phaser.Input.Pointer) => {
if (p.rightButtonDown() && this.targetingSystem.isActive) {
this.targetingSystem.cancel();
this.emitUIUpdate();
}
});
// Zoom Control
this.input.on("wheel", (_pointer: Phaser.Input.Pointer, _gameObjects: Phaser.GameObjects.GameObject[], _deltaX: number, deltaY: number, _deltaZ: number) => {
if (this.isMenuOpen || this.isInventoryOpen || this.dungeonRenderer.isMinimapVisible()) return;
this.cameraController.handleWheel(deltaY);
});
// Disable context menu for right-click panning
this.input.mouse?.disableContextMenu();
// Camera Panning
this.input.on("pointermove", (p: Phaser.Input.Pointer) => {
if (!p.isDown) { // Even if not down, we might need to update targeting line
if (this.targetingSystem.isActive) {
const tx = Math.floor(p.worldX / TILE_SIZE);
const ty = Math.floor(p.worldY / TILE_SIZE);
const player = this.entityAccessor.getPlayer();
if (player) {
this.targetingSystem.updateCursor({ x: tx, y: ty }, player.pos);
}
}
return;
}
if (this.isMenuOpen || this.isInventoryOpen || this.dungeonRenderer.isMinimapVisible()) return;
const isRightDrag = p.rightButtonDown();
const isMiddleDrag = p.middleButtonDown();
const isShiftDrag = p.isDown && p.event.shiftKey;
if (isRightDrag || isMiddleDrag || isShiftDrag) {
const { x, y } = p.position;
const { x: prevX, y: prevY } = p.prevPosition;
const dx = (x - prevX) / this.cameras.main.zoom;
const dy = (y - prevY) / this.cameras.main.zoom;
this.cameraController.handlePan(dx, dy);
}
if (this.targetingSystem.isActive) {
const tx = Math.floor(p.worldX / TILE_SIZE);
const ty = Math.floor(p.worldY / TILE_SIZE);
const player = this.entityAccessor.getPlayer();
if (player) {
this.targetingSystem.updateCursor({ x: tx, y: ty }, player.pos);
}
}
});
// Mouse click ->
this.input.on("pointerdown", (p: Phaser.Input.Pointer) => {
// Targeting Click
if (this.targetingSystem.isActive) {
// Only Left Click throws
if (p.button === 0) {
if (this.targetingSystem.cursorPos) {
this.executeThrow();
}
}
return;
}
// Movement Click
if (p.button !== 0) return;
this.cameraController.enableFollowMode();
if (!this.awaitingPlayer) return;
if (this.isMenuOpen || this.isInventoryOpen || this.dungeonRenderer.isMinimapVisible()) return;
const tx = Math.floor(p.worldX / TILE_SIZE);
const ty = Math.floor(p.worldY / TILE_SIZE);
if (!inBounds(this.world, tx, ty)) return;
if (!this.dungeonRenderer.isSeen(tx, ty)) return;
const isEnemy = this.entityAccessor.hasEnemyAt(tx, ty);
const player = this.entityAccessor.getPlayer();
if (!player) return;
const dx = tx - player.pos.x;
const dy = ty - player.pos.y;
const isDiagonalNeighbor = Math.abs(dx) === 1 && Math.abs(dy) === 1;
if (isEnemy && isDiagonalNeighbor) {
const enemy = this.entityAccessor.findEnemyAt(tx, ty);
if (enemy) {
this.commitPlayerAction({ type: "attack", targetId: enemy.id });
return;
}
}
const path = findPathAStar(
this.world,
this.dungeonRenderer.seenArray,
{ ...player.pos },
{ x: tx, y: ty },
{ ignoreBlockedTarget: isEnemy, accessor: this.entityAccessor }
);
if (path.length >= 2) this.playerPath = path;
this.dungeonRenderer.render(this.playerPath);
});
}
update() {
if (!this.awaitingPlayer) return; if (!this.awaitingPlayer) return;
if (this.isMenuOpen || this.isInventoryOpen || this.isCharacterOpen || this.dungeonRenderer.isMinimapVisible()) return; if (this.isMenuOpen || this.isInventoryOpen || this.isCharacterOpen || this.dungeonRenderer.isMinimapVisible()) return;
@@ -527,7 +152,7 @@ export class GameScene extends Phaser.Scene {
const dx = next.x - player.pos.x; const dx = next.x - player.pos.x;
const dy = next.y - player.pos.y; const dy = next.y - player.pos.y;
if (Math.abs(dx) + Math.abs(dy) !== 1) { if (Math.max(Math.abs(dx), Math.abs(dy)) !== 1) {
this.playerPath = []; this.playerPath = [];
return; return;
} }
@@ -545,57 +170,37 @@ export class GameScene extends Phaser.Scene {
} }
} }
if (this.time.now - this.lastMoveTime < GAME_CONFIG.rendering.moveDuration) {
return;
}
this.commitPlayerAction({ type: "move", dx, dy }); this.commitPlayerAction({ type: "move", dx, dy });
this.lastMoveTime = this.time.now;
this.playerPath.shift(); this.playerPath.shift();
return; return;
} }
let action: Action | null = null; let action: Action | null = this.playerInputHandler.handleCursorMovement();
let dx = 0;
let dy = 0;
const anyJustDown = Phaser.Input.Keyboard.JustDown(this.cursors.left!) ||
Phaser.Input.Keyboard.JustDown(this.cursors.right!) ||
Phaser.Input.Keyboard.JustDown(this.cursors.up!) ||
Phaser.Input.Keyboard.JustDown(this.cursors.down!);
if (anyJustDown) {
dx = 0; dy = 0;
if (this.cursors.left!.isDown) dx -= 1;
if (this.cursors.right!.isDown) dx += 1;
if (this.cursors.up!.isDown) dy -= 1;
if (this.cursors.down!.isDown) dy += 1;
if (dx !== 0 || dy !== 0) {
if (this.targetingSystem.isActive) {
this.targetingSystem.cancel();
this.emitUIUpdate();
}
const player = this.entityAccessor.getPlayer();
if (!player) return;
const targetX = player.pos.x + dx;
const targetY = player.pos.y + dy;
const enemy = this.entityAccessor.findEnemyAt(targetX, targetY);
if (enemy) {
action = { type: "attack", targetId: enemy.id };
} else {
if (Math.abs(dx) + Math.abs(dy) === 1) {
action = { type: "move", dx, dy };
}
}
}
}
if (action) { if (action) {
if (action.type === "move" && this.time.now - this.lastMoveTime < GAME_CONFIG.rendering.moveDuration) {
return;
}
this.playerPath = []; this.playerPath = [];
this.commitPlayerAction(action); this.commitPlayerAction(action);
if (action.type === "move") {
this.lastMoveTime = this.time.now;
}
} }
} }
private emitUIUpdate() { public emitUIUpdate() {
if (!this.entityAccessor) {
console.warn("[GameScene] emitUIUpdate called before entityAccessor was initialized.");
return;
}
const payload: UIUpdatePayload = { const payload: UIUpdatePayload = {
world: this.world, world: this.world,
playerId: this.playerId, playerId: this.playerId,
@@ -608,7 +213,7 @@ export class GameScene extends Phaser.Scene {
this.events.emit("update-ui", payload); this.events.emit("update-ui", payload);
} }
private commitPlayerAction(action: Action) { public commitPlayerAction(action: Action) {
const playerEvents = applyAction(this.world, this.playerId, action, this.entityAccessor); const playerEvents = applyAction(this.world, this.playerId, action, this.entityAccessor);
if (playerEvents.some(ev => ev.type === "move-blocked")) { if (playerEvents.some(ev => ev.type === "move-blocked")) {
@@ -616,7 +221,6 @@ export class GameScene extends Phaser.Scene {
} }
this.awaitingPlayer = false; this.awaitingPlayer = false;
this.cameraController.enableFollowMode();
// Process reloading progress // Process reloading progress
const player = this.entityAccessor.getPlayer(); const player = this.entityAccessor.getPlayer();
@@ -666,6 +270,14 @@ export class GameScene extends Phaser.Scene {
this.emitUIUpdate(); this.emitUIUpdate();
} }
// Handle tile changes from ECS/FireSystem
const ecsEvents = this.ecsEventBus.drain();
for (const ev of ecsEvents) {
if (ev.type === "tile_changed") {
this.dungeonRenderer.updateTile(ev.x, ev.y);
}
}
// Process traps and status effects // Process traps and status effects
this.ecsRegistry.updateAll(); this.ecsRegistry.updateAll();
@@ -711,26 +323,27 @@ export class GameScene extends Phaser.Scene {
); );
player.stats.mana += regenAmount; player.stats.mana += regenAmount;
} }
// Ceramic Dragon Head Recharge logic
if (player && player.inventory) {
for (const item of player.inventory.items) {
if (item.type === "Weapon" && item.weaponType === "ceramic_dragon_head") {
if (item.charges < item.maxCharges) {
const turnsSinceLast = this.turnCount - item.lastRechargeTurn;
if (turnsSinceLast >= GAME_CONFIG.gameplay.ceramicDragonHead.rechargeTurns) {
item.charges++;
item.lastRechargeTurn = this.turnCount;
this.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, "+Charge", "#ff6600");
}
}
}
}
}
} }
const allEvents = [...playerEvents, ...enemyStep.events]; const allEvents = [...playerEvents, ...enemyStep.events];
const renderCallbacks: EventRenderCallbacks = {
showDamage: (x, y, amount, isCrit, isBlock) => this.dungeonRenderer.showDamage(x, y, amount, isCrit, isBlock),
showDodge: (x, y) => this.dungeonRenderer.showDodge(x, y),
showHeal: (x, y, amount) => this.dungeonRenderer.showHeal(x, y, amount),
spawnCorpse: (x, y, type) => this.dungeonRenderer.spawnCorpse(x, y, type),
showWait: (x, y) => this.dungeonRenderer.showWait(x, y),
spawnOrb: (orbId, x, y) => this.dungeonRenderer.spawnOrb(orbId, x, y),
collectOrb: (actorId, amount, x, y) => this.dungeonRenderer.collectOrb(actorId, amount, x, y),
showLevelUp: (x, y) => this.dungeonRenderer.showLevelUp(x, y),
showAlert: (x, y) => this.dungeonRenderer.showAlert(x, y),
showFloatingText: (x, y, message, color) => this.dungeonRenderer.showFloatingText(x, y, message, color),
};
renderSimEvents(allEvents, renderCallbacks, { this.gameRenderer.renderEvents(allEvents, this.playerId, this.entityAccessor);
playerId: this.playerId,
getPlayerPos: () => this.entityAccessor.getPlayerPos()
});
// Handle loot drops from kills (not part of renderSimEvents since it modifies world state) // Handle loot drops from kills (not part of renderSimEvents since it modifies world state)
for (const ev of allEvents) { for (const ev of allEvents) {
@@ -743,27 +356,19 @@ export class GameScene extends Phaser.Scene {
} }
} }
if (!this.entityAccessor.isPlayerAlive()) { if (!this.entityAccessor.isPlayerAlive()) {
this.syncRunStateFromPlayer(); this.syncRunStateFromPlayer();
const uiScene = this.scene.get("GameUI") as GameUI; const uiScene = this.scene.get("GameUI") as GameUI;
if (uiScene && 'showDeathScreen' in uiScene) { if (uiScene && "showDeathScreen" in uiScene) {
uiScene.showDeathScreen({ uiScene.showDeathScreen({
floor: this.floorIndex, floor: this.floorIndex,
gold: this.runState.inventory.gold, gold: this.runState.inventory.gold,
stats: this.runState.stats stats: this.runState.stats,
}); });
} }
return; return;
} }
if (isPlayerOnExit(this.world, this.entityAccessor)) {
this.syncRunStateFromPlayer();
this.floorIndex++;
this.loadFloor(this.floorIndex);
return;
}
this.dungeonRenderer.computeFov(); this.dungeonRenderer.computeFov();
if (this.cameraController.isFollowing) { if (this.cameraController.isFollowing) {
const player = this.entityAccessor.getPlayer(); const player = this.entityAccessor.getPlayer();
@@ -776,73 +381,121 @@ export class GameScene extends Phaser.Scene {
} }
private loadFloor(floor: number) { private loadFloor(floor: number) {
try {
console.log(`[GameScene] loadFloor started for floor ${floor}`);
this.floorIndex = floor; this.floorIndex = floor;
this.cameraController.enableFollowMode();
console.log(`[GameScene] Calling generateWorld...`);
const { world, playerId, ecsWorld } = generateWorld(floor, this.runState); const { world, playerId, ecsWorld } = generateWorld(floor, this.runState);
console.log(`[GameScene] World generated. Width: ${world.width}, Height: ${world.height}`);
// DIAGNOSTIC: Count tiles
const counts: Record<number, number> = {};
world.tiles.forEach(t => counts[t] = (counts[t] || 0) + 1);
console.log(`[GameScene] Tile counts:`, counts);
console.log(`[GameScene] Exit position:`, world.exit);
this.world = world; this.world = world;
this.playerId = playerId; this.playerId = playerId;
// Initialize or update entity accessor // Initialize or update entity accessor
console.log(`[GameScene] Setting up EntityAccessor...`);
if (!this.entityAccessor) { if (!this.entityAccessor) {
this.entityAccessor = new EntityAccessor(this.world, this.playerId, ecsWorld); this.entityAccessor = new EntityAccessor(this.world, this.playerId, ecsWorld);
} else { } else {
this.entityAccessor.updateWorld(this.world, this.playerId, ecsWorld); this.entityAccessor.updateWorld(this.world, this.playerId, ecsWorld);
} }
console.log(`[GameScene] Updating ItemManager...`);
this.itemManager.updateWorld(this.world, this.entityAccessor, ecsWorld); this.itemManager.updateWorld(this.world, this.entityAccessor, ecsWorld);
// Initialize ECS for traps and status effects // Initialize ECS for traps and status effects
this.ecsWorld = ecsWorld; this.ecsWorld = ecsWorld;
this.ecsEventBus = new EventBus(); this.ecsEventBus = new EventBus();
// Handle level completion
this.ecsEventBus.on("mission_complete", () => {
console.log("[GameScene] Mission Complete! Loading next floor...");
this.syncRunStateFromPlayer();
this.loadFloor(this.floorIndex + 1);
});
// Register systems // Register systems
console.log(`[GameScene] Registering ECS systems...`);
this.ecsRegistry = new SystemRegistry(this.ecsWorld, this.ecsEventBus); this.ecsRegistry = new SystemRegistry(this.ecsWorld, this.ecsEventBus);
this.ecsRegistry.register(new TriggerSystem()); this.ecsRegistry.register(new TriggerSystem());
this.ecsRegistry.register(new StatusEffectSystem()); this.ecsRegistry.register(new StatusEffectSystem());
this.ecsRegistry.register(new MineCartSystem());
this.ecsRegistry.register(new FireSystem(this.world));
// NOTE: Entities are synced to ECS via EntityAccessor which bridges the World state. console.log(`[GameScene] ECS systems registered.`);
// No need to manually add player here anymore.
this.playerPath = []; this.playerPath = [];
this.awaitingPlayer = false; this.awaitingPlayer = false;
this.cameraController.setBounds(0, 0, this.world.width * TILE_SIZE, this.world.height * TILE_SIZE); const paddingX = this.world.width * TILE_SIZE;
const paddingY = this.world.height * TILE_SIZE;
this.cameraController.setBounds(
-paddingX,
-paddingY,
this.world.width * TILE_SIZE + paddingX * 2,
this.world.height * TILE_SIZE + paddingY * 2
);
console.log(`[GameScene] Initializing floor renderer...`);
this.dungeonRenderer.initializeFloor(this.world, this.ecsWorld, this.entityAccessor); this.dungeonRenderer.initializeFloor(this.world, this.ecsWorld, this.entityAccessor);
this.cameras.main.fadeIn(500, 0, 0, 0); // Force fade in
console.log(`[GameScene] Stepping simulation until player turn...`);
const enemyStep = stepUntilPlayerTurn(this.world, this.playerId, this.entityAccessor); const enemyStep = stepUntilPlayerTurn(this.world, this.playerId, this.entityAccessor);
this.awaitingPlayer = enemyStep.awaitingPlayerId === this.playerId; this.awaitingPlayer = enemyStep.awaitingPlayerId === this.playerId;
console.log(`[GameScene] Computing FOV...`);
this.dungeonRenderer.computeFov(); this.dungeonRenderer.computeFov();
const p = this.entityAccessor.getPlayer(); const p = this.entityAccessor.getPlayer();
if (p) { if (p) {
console.log(`[GameScene] Centering camera on player at ${p.pos.x},${p.pos.y}`);
this.cameraController.centerOnTile(p.pos.x, p.pos.y); this.cameraController.centerOnTile(p.pos.x, p.pos.y);
} } else {
this.dungeonRenderer.render(this.playerPath); console.error(`[GameScene] Player not found for camera centering!`);
this.emitUIUpdate();
} }
private syncRunStateFromPlayer() { console.log(`[GameScene] Triggering first render...`);
this.dungeonRenderer.render(this.playerPath);
this.emitUIUpdate();
console.log(`[GameScene] loadFloor complete.`);
} catch (e) {
console.error(`[GameScene] CRITICAL ERROR in loadFloor:`, e);
// Fallback: reveal everything if possible?
this.cameras.main.setBackgroundColor(0xff0000); // Red screen of death
}
}
public syncRunStateFromPlayer() {
const p = this.entityAccessor.getPlayer(); const p = this.entityAccessor.getPlayer();
if (!p || !p.stats || !p.inventory) return; if (!p || !p.stats || !p.inventory) return;
this.runState = { this.runState = {
stats: { ...p.stats }, stats: { ...p.stats },
inventory: { gold: p.inventory.gold, items: [...p.inventory.items] } inventory: { gold: p.inventory.gold, items: [...p.inventory.items] },
seed: this.runState.seed,
lastReloadableWeaponId: this.runState.lastReloadableWeaponId
}; };
} }
private restartGame() { public restartGame() {
this.runState = { this.runState = {
stats: { ...GAME_CONFIG.player.initialStats }, stats: { ...GAME_CONFIG.player.initialStats },
inventory: { gold: 0, items: [] } inventory: { gold: 0, items: [] },
seed: Math.floor(Math.random() * 1000000),
lastReloadableWeaponId: null
}; };
this.floorIndex = 1; this.floorIndex = 1;
this.loadFloor(this.floorIndex); this.loadFloor(this.floorIndex);
} }
private executeThrow() { public executeThrow() {
const success = this.targetingSystem.executeThrow( const success = this.targetingSystem.executeThrow(
this.world, this.world,
this.playerId, this.playerId,
@@ -868,22 +521,64 @@ export class GameScene extends Phaser.Scene {
const player = this.entityAccessor.getPlayer(); const player = this.entityAccessor.getPlayer();
if (!player) return; if (!player) return;
// Projectile Visuals let projectileTexture = item.textureKey;
let projectileId = item.id; let projectileFrame = item.spriteIndex;
if (item.type === "Weapon" && item.weaponType === "ranged") { if (item.type === "Weapon" && item.weaponType === "ranged") {
projectileId = `ammo_${item.stats.ammoType}`; // Show ammo sprite const ammoId = `ammo_${item.stats.ammoType}`;
const ammoTemplate = ALL_TEMPLATES[ammoId as keyof typeof ALL_TEMPLATES];
if (ammoTemplate) {
projectileTexture = ammoTemplate.textureKey;
projectileFrame = ammoTemplate.spriteIndex;
}
// Consume Ammo // Consume Ammo
if (item.currentAmmo > 0) { if (item.currentAmmo > 0) {
item.currentAmmo--; item.currentAmmo--;
} }
// Track as last used reloadable weapon
this.runState.lastReloadableWeaponId = item.id;
} }
this.dungeonRenderer.showProjectile( this.dungeonRenderer.showProjectile(
player.pos, player.pos,
blockedPos, blockedPos,
projectileId, projectileTexture,
projectileFrame ?? 0,
() => { () => {
// Handle Ceramic Dragon Head specific impact
if (item.type === "Weapon" && item.weaponType === "ceramic_dragon_head") {
item.charges--;
item.lastRechargeTurn = this.turnCount; // Prevent immediate recharge if turn logic is before/after
const config = GAME_CONFIG.gameplay.ceramicDragonHead;
const targetTiles = getConeTiles(player.pos, blockedPos, config.range);
for (const tile of targetTiles) {
// 1. Initial Damage to Enemies
const enemy = this.entityAccessor.findEnemyAt(tile.x, tile.y);
if (enemy) {
enemy.stats.hp -= config.initialDamage;
this.dungeonRenderer.showDamage(tile.x, tile.y, config.initialDamage);
// 2. Burning Status
applyStatusEffect(this.ecsWorld, enemy.id, {
type: "burning",
duration: config.burnDuration,
magnitude: config.burnDamage,
source: this.playerId
});
}
// 3. Set Tile on Fire (ONLY if flammable)
const tileIdx = tile.y * this.world.width + tile.x;
const worldTile = this.world.tiles[tileIdx];
if (worldTile === TileType.GRASS || worldTile === TileType.DOOR_CLOSED || worldTile === TileType.DOOR_OPEN) {
Prefabs.fire(this.ecsWorld, tile.x, tile.y, 4);
}
}
} else {
// Only drop item if it acts as a thrown item (Consumable/Misc), NOT Weapon // Only drop item if it acts as a thrown item (Consumable/Misc), NOT Weapon
const shouldDrop = item.type !== "Weapon"; const shouldDrop = item.type !== "Weapon";
@@ -897,6 +592,7 @@ export class GameScene extends Phaser.Scene {
if (tryDestructTile(this.world, blockedPos.x, blockedPos.y)) { if (tryDestructTile(this.world, blockedPos.x, blockedPos.y)) {
this.dungeonRenderer.updateTile(blockedPos.x, blockedPos.y); this.dungeonRenderer.updateTile(blockedPos.x, blockedPos.y);
} }
}
this.targetingSystem.cancel(); this.targetingSystem.cancel();
this.commitPlayerAction({ type: "throw" }); // Or 'attack' if shooting? 'throw' is fine for now this.commitPlayerAction({ type: "throw" }); // Or 'attack' if shooting? 'throw' is fine for now
@@ -911,7 +607,7 @@ export class GameScene extends Phaser.Scene {
} }
} }
private startReload(player: CombatantActor, item: RangedWeaponItem) { public startReload(player: CombatantActor, item: RangedWeaponItem) {
if (item.currentAmmo >= item.stats.magazineSize) { if (item.currentAmmo >= item.stats.magazineSize) {
this.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, "Full!", "#aaaaaa"); this.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, "Full!", "#aaaaaa");
return; return;
@@ -924,6 +620,7 @@ export class GameScene extends Phaser.Scene {
if (ammoItem && ammoItem.quantity && ammoItem.quantity > 0) { if (ammoItem && ammoItem.quantity && ammoItem.quantity > 0) {
item.reloadingTurnsLeft = GAME_CONFIG.player.reloadDuration; item.reloadingTurnsLeft = GAME_CONFIG.player.reloadDuration;
this.runState.lastReloadableWeaponId = item.id;
this.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, "Reloading...", "#aaaaaa"); this.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, "Reloading...", "#aaaaaa");
console.log(`Started reloading ${item.name}. Duration: ${item.reloadingTurnsLeft}`); console.log(`Started reloading ${item.name}. Duration: ${item.reloadingTurnsLeft}`);
@@ -939,7 +636,7 @@ export class GameScene extends Phaser.Scene {
} }
} }
private getPointerTilePos(pointer: Phaser.Input.Pointer): { x: number, y: number } { public getPointerTilePos(pointer: Phaser.Input.Pointer): { x: number, y: number } {
const worldPoint = this.cameras.main.getWorldPoint(pointer.x, pointer.y); const worldPoint = this.cameras.main.getWorldPoint(pointer.x, pointer.y);
return { return {
x: Math.floor(worldPoint.x / TILE_SIZE), x: Math.floor(worldPoint.x / TILE_SIZE),

17
src/scenes/__tests__/GameScene.test.ts
View File

@@ -13,6 +13,12 @@ vi.mock('phaser', () => {
input = { input = {
keyboard: { keyboard: {
createCursorKeys: vi.fn(() => ({})), createCursorKeys: vi.fn(() => ({})),
addKeys: vi.fn(() => ({
W: { isDown: false },
A: { isDown: false },
S: { isDown: false },
D: { isDown: false }
})),
on: vi.fn(), on: vi.fn(),
}, },
on: vi.fn(), on: vi.fn(),
@@ -75,6 +81,17 @@ vi.mock('phaser', () => {
JustDown: vi.fn(), JustDown: vi.fn(),
}, },
}, },
Events: {
EventEmitter: class {
on = vi.fn();
off = vi.fn();
emit = vi.fn();
addListener = vi.fn();
removeListener = vi.fn();
removeAllListeners = vi.fn();
once = vi.fn();
}
}
} }
}; };
}); });

65
src/scenes/rendering/GameRenderer.ts Normal file
View File

@@ -0,0 +1,65 @@
import { DungeonRenderer } from "../../rendering/DungeonRenderer";
import { renderSimEvents, type EventRenderCallbacks } from "../systems/EventRenderer";
import { type SimEvent, type EntityId, type ActorType } from "../../core/types";
import { type EntityAccessor } from "../../engine/EntityAccessor";
export class GameRenderer implements EventRenderCallbacks {
private dungeonRenderer: DungeonRenderer;
constructor(dungeonRenderer: DungeonRenderer) {
this.dungeonRenderer = dungeonRenderer;
}
public renderEvents(events: SimEvent[], playerId: EntityId, accessor: EntityAccessor) {
renderSimEvents(events, this, {
playerId: playerId,
getPlayerPos: () => accessor.getPlayerPos()
});
}
// Delegation Methods
showDamage(x: number, y: number, amount: number, isCrit?: boolean, isBlock?: boolean): void {
this.dungeonRenderer.showDamage(x, y, amount, isCrit, isBlock);
}
showDodge(x: number, y: number): void {
this.dungeonRenderer.showDodge(x, y);
}
showHeal(x: number, y: number, amount: number): void {
this.dungeonRenderer.showHeal(x, y, amount);
}
spawnCorpse(x: number, y: number, type: ActorType, targetId?: EntityId): void {
this.dungeonRenderer.spawnCorpse(x, y, type, targetId);
}
showWait(x: number, y: number): void {
this.dungeonRenderer.showWait(x, y);
}
spawnOrb(orbId: EntityId, x: number, y: number): void {
this.dungeonRenderer.spawnOrb(orbId, x, y);
}
collectOrb(actorId: EntityId, amount: number, x: number, y: number): void {
this.dungeonRenderer.collectOrb(actorId, amount, x, y);
}
showLevelUp(x: number, y: number): void {
this.dungeonRenderer.showLevelUp(x, y);
}
showAlert(x: number, y: number): void {
this.dungeonRenderer.showAlert(x, y);
}
showFloatingText(x: number, y: number, message: string, color: string): void {
this.dungeonRenderer.showFloatingText(x, y, message, color);
}
spawnLoot(x: number, y: number, itemName: string): void {
// Optional hook if we wanted to visualize loot spawn specifically here
this.dungeonRenderer.showFloatingText(x, y, `${itemName}!`, "#ffd700");
}
}

4
src/scenes/systems/CameraController.ts
View File

@@ -8,7 +8,7 @@ import { GAME_CONFIG } from "../../core/config/GameConfig";
*/ */
export class CameraController { export class CameraController {
private camera: Phaser.Cameras.Scene2D.Camera; private camera: Phaser.Cameras.Scene2D.Camera;
private followMode: boolean = true; private followMode: boolean = false;
constructor(camera: Phaser.Cameras.Scene2D.Camera) { constructor(camera: Phaser.Cameras.Scene2D.Camera) {
this.camera = camera; this.camera = camera;
@@ -58,7 +58,7 @@ export class CameraController {
handleWheel(deltaY: number): void { handleWheel(deltaY: number): void {
const zoomDir = deltaY > 0 ? -1 : 1; const zoomDir = deltaY > 0 ? -1 : 1;
const newZoom = Phaser.Math.Clamp( const newZoom = Phaser.Math.Clamp(
this.camera.zoom + zoomDir * GAME_CONFIG.rendering.zoomStep, Math.round(this.camera.zoom + zoomDir * GAME_CONFIG.rendering.zoomStep),
GAME_CONFIG.rendering.minZoom, GAME_CONFIG.rendering.minZoom,
GAME_CONFIG.rendering.maxZoom GAME_CONFIG.rendering.maxZoom
); );

4
src/scenes/systems/EventRenderer.ts
View File

@@ -8,7 +8,7 @@ export interface EventRenderCallbacks {
showDamage(x: number, y: number, amount: number, isCrit?: boolean, isBlock?: boolean): void; showDamage(x: number, y: number, amount: number, isCrit?: boolean, isBlock?: boolean): void;
showDodge(x: number, y: number): void; showDodge(x: number, y: number): void;
showHeal(x: number, y: number, amount: number): void; showHeal(x: number, y: number, amount: number): void;
spawnCorpse(x: number, y: number, type: ActorType): void; spawnCorpse(x: number, y: number, type: ActorType, targetId?: EntityId): void;
showWait(x: number, y: number): void; showWait(x: number, y: number): void;
spawnOrb(orbId: EntityId, x: number, y: number): void; spawnOrb(orbId: EntityId, x: number, y: number): void;
collectOrb(actorId: EntityId, amount: number, x: number, y: number): void; collectOrb(actorId: EntityId, amount: number, x: number, y: number): void;
@@ -50,7 +50,7 @@ export function renderSimEvents(
break; break;
case "killed": case "killed":
callbacks.spawnCorpse(ev.x, ev.y, ev.victimType || "rat"); callbacks.spawnCorpse(ev.x, ev.y, ev.victimType || "rat", ev.targetId);
break; break;
case "waited": case "waited":

286
src/scenes/systems/GameEventHandler.ts Normal file
View File

@@ -0,0 +1,286 @@
import type { GameScene } from "../GameScene";
import { UpgradeManager } from "../../engine/systems/UpgradeManager";
import { InventoryOverlay } from "../../ui/components/InventoryOverlay";
import { equipItem, deEquipItem } from "../../engine/systems/EquipmentService";
import { inBounds, isBlocked } from "../../engine/world/world-logic";
import GameUI from "../../ui/GameUI";
export class GameEventHandler {
private scene: GameScene;
constructor(scene: GameScene) {
this.scene = scene;
}
public registerListeners() {
const events = this.scene.events;
events.on("menu-toggled", (isOpen: boolean) => {
this.scene.isMenuOpen = isOpen;
});
events.on("inventory-toggled", (isOpen: boolean) => {
this.scene.isInventoryOpen = isOpen;
});
events.on("character-toggled", (isOpen: boolean) => {
this.scene.isCharacterOpen = isOpen;
});
events.on("toggle-minimap", () => {
this.scene.dungeonRenderer.toggleMinimap();
});
events.on("request-ui-update", () => {
this.scene.emitUIUpdate();
});
events.on("restart-game", () => {
this.scene.restartGame();
});
events.on("allocate-stat", (statName: string) => {
const player = this.scene.entityAccessor.getPlayer();
if (player) {
this.scene.progressionManager.allocateStat(player, statName);
this.scene.emitUIUpdate();
}
});
events.on("allocate-passive", (nodeId: string) => {
const player = this.scene.entityAccessor.getPlayer();
if (player) {
this.scene.progressionManager.allocatePassive(player, nodeId);
this.scene.emitUIUpdate();
}
});
events.on("player-wait", () => {
if (!this.scene.awaitingPlayer) return;
if (this.scene.isMenuOpen || this.scene.isInventoryOpen || this.scene.dungeonRenderer.isMinimapVisible()) return;
this.scene.commitPlayerAction({ type: "wait" });
});
events.on("player-search", () => {
if (!this.scene.awaitingPlayer) return;
if (this.scene.isMenuOpen || this.scene.isInventoryOpen || this.scene.dungeonRenderer.isMinimapVisible()) return;
console.log("Player searching...");
this.scene.commitPlayerAction({ type: "wait" });
});
events.on("use-item", (data: { itemId: string }) => {
this.handleUseItem(data.itemId);
});
events.on("drop-item", (data: { itemId: string, pointerX: number, pointerY: number }) => {
this.handleDropItem(data);
});
events.on("equip-item", (data: { itemId: string, slotKey: string }) => {
this.handleEquipItem(data);
});
events.on("de-equip-item", (data: { slotKey: string }) => {
this.handleDeEquipItem(data);
});
}
private handleUseItem(itemId: string) {
if (!this.scene.awaitingPlayer) return;
const player = this.scene.entityAccessor.getPlayer();
if (!player || !player.inventory) return;
const itemIdx = player.inventory.items.findIndex(it => it.id === itemId);
if (itemIdx === -1) return;
const item = player.inventory.items[itemIdx];
// Ranged Weapon Logic
if (item.type === "Weapon" && (item.weaponType === "ranged" || item.weaponType === "ceramic_dragon_head")) {
if (item.weaponType === "ranged") {
// Check Ammo
if (item.currentAmmo <= 0) {
if (item.reloadingTurnsLeft > 0) {
this.scene.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, "Reloading...", "#aaaaaa");
return;
}
// Try Reload
this.scene.startReload(player, item as any);
return;
}
// Is it already reloading?
if (item.reloadingTurnsLeft > 0) {
this.scene.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, "Reloading...", "#aaaaaa");
return;
}
} else if (item.weaponType === "ceramic_dragon_head") {
// Check Charges
if (item.charges <= 0) {
this.scene.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, "No charges!", "#ff6600");
return;
}
}
// Has ammo/charges, start targeting
if (this.scene.targetingSystem.isActive && this.scene.targetingSystem.itemId === item.id) {
// Already targeting - execute action
if (this.scene.targetingSystem.cursorPos) {
this.scene.executeThrow();
}
return;
}
const { x: tx, y: ty } = this.scene.getPointerTilePos(this.scene.input.activePointer);
this.scene.targetingSystem.startTargeting(
item.id,
player.pos,
this.scene.world,
this.scene.entityAccessor,
this.scene.playerId,
this.scene.dungeonRenderer.seenArray,
this.scene.world.width,
{ x: tx, y: ty }
);
this.scene.emitUIUpdate();
return;
}
// Upgrade Scroll Logic
if (item.id === "upgrade_scroll") {
const uiScene = this.scene.scene.get("GameUI") as GameUI;
// Access the public inventory component
const inventoryOverlay = uiScene.inventory;
if (inventoryOverlay && inventoryOverlay instanceof InventoryOverlay) {
// Trigger upgrade mode
inventoryOverlay.enterUpgradeMode((targetItem: any) => {
const success = UpgradeManager.applyUpgrade(targetItem);
if (success) {
// Consume scroll logic handling stacking
const scrollItem = player.inventory?.items.find(it => it.id === "upgrade_scroll");
if (scrollItem) {
if (scrollItem.stackable && scrollItem.quantity && scrollItem.quantity > 1) {
scrollItem.quantity--;
} else {
this.scene.itemManager.removeFromInventory(player, "upgrade_scroll");
}
this.scene.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, "Upgraded!", "#ffd700");
}
inventoryOverlay.cancelUpgradeMode();
this.scene.emitUIUpdate();
this.scene.commitPlayerAction({ type: "wait" });
} else {
// Should technically be prevented by UI highlights, but safety check
this.scene.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, "Cannot upgrade!", "#ff0000");
inventoryOverlay.cancelUpgradeMode();
this.scene.emitUIUpdate();
}
});
this.scene.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, "Select Item to Upgrade", "#ffffff");
}
return;
}
const result = this.scene.itemManager.handleUse(itemId, player);
if (result.success && result.consumed) {
const healAmount = player.stats.maxHp - player.stats.hp; // Already healed by manager
const actualHeal = Math.min(healAmount, player.stats.hp);
this.scene.dungeonRenderer.showHeal(player.pos.x, player.pos.y, actualHeal);
this.scene.commitPlayerAction({ type: "wait" });
this.scene.emitUIUpdate();
} else if (result.success && !result.consumed) {
// Throwable item - start targeting
if (this.scene.targetingSystem.isActive && this.scene.targetingSystem.itemId === item.id) {
// Already targeting - execute throw
if (this.scene.targetingSystem.cursorPos) {
this.scene.executeThrow();
}
return;
}
const { x: tx, y: ty } = this.scene.getPointerTilePos(this.scene.input.activePointer);
this.scene.targetingSystem.startTargeting(
item.id,
player.pos,
this.scene.world,
this.scene.entityAccessor,
this.scene.playerId,
this.scene.dungeonRenderer.seenArray,
this.scene.world.width,
{ x: tx, y: ty }
);
this.scene.emitUIUpdate();
}
}
private handleDropItem(data: { itemId: string, pointerX: number, pointerY: number }) {
if (!this.scene.awaitingPlayer) return;
const player = this.scene.entityAccessor.getPlayer();
if (!player || !player.inventory) return;
const item = this.scene.itemManager.getItem(player, data.itemId);
if (!item) return;
// Determine drop position based on pointer or player pos
let dropPos = { x: player.pos.x, y: player.pos.y };
if (data.pointerX !== undefined && data.pointerY !== undefined) {
const tilePos = this.scene.getPointerTilePos({ x: data.pointerX, y: data.pointerY } as Phaser.Input.Pointer);
// Limit drop distance to 1 tile from player for balance/fairness
const dx = Math.sign(tilePos.x - player.pos.x);
const dy = Math.sign(tilePos.y - player.pos.y);
const targetX = player.pos.x + dx;
const targetY = player.pos.y + dy;
if (inBounds(this.scene.world, targetX, targetY) && !isBlocked(this.scene.world, targetX, targetY, this.scene.entityAccessor)) {
dropPos = { x: targetX, y: targetY };
}
}
// Remove from inventory and spawn in world
if (this.scene.itemManager.removeFromInventory(player, data.itemId)) {
this.scene.itemManager.spawnItem(item, dropPos);
const quantityText = (item.quantity && item.quantity > 1) ? ` x${item.quantity}` : "";
this.scene.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, `Dropped ${item.name}${quantityText}`, "#aaaaaa");
this.scene.emitUIUpdate();
}
}
private handleEquipItem(data: { itemId: string, slotKey: string }) {
const player = this.scene.entityAccessor.getPlayer();
if (!player || !player.inventory) return;
const item = player.inventory.items.find(it => it.id === data.itemId);
if (!item) return;
const result = equipItem(player, item, data.slotKey as any);
if (!result.success) {
this.scene.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, result.message ?? "Cannot equip!", "#ff0000");
return;
}
this.scene.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, `Equipped ${item.name}`, "#d4af37");
this.scene.emitUIUpdate();
}
private handleDeEquipItem(data: { slotKey: string }) {
const player = this.scene.entityAccessor.getPlayer();
if (!player || !player.equipment) return;
const removedItem = deEquipItem(player, data.slotKey as any);
if (removedItem) {
this.scene.dungeonRenderer.showFloatingText(player.pos.x, player.pos.y, `De-equipped ${removedItem.name}`, "#aaaaaa");
this.scene.emitUIUpdate();
}
}
}

220
src/scenes/systems/PlayerInputHandler.ts Normal file
View File

@@ -0,0 +1,220 @@
import type { GameScene } from "../GameScene";
import { TILE_SIZE } from "../../core/constants";
import { inBounds } from "../../engine/world/world-logic";
import { findPathAStar } from "../../engine/world/pathfinding";
import type { Action, RangedWeaponItem } from "../../core/types";
export class PlayerInputHandler {
private scene: GameScene;
// Input Chording state
private pendingDx: number = 0;
private pendingDy: number = 0;
private moveChordTime: number = 0;
private readonly CHORD_WINDOW = 40; // ms to wait for diagonal chord
constructor(scene: GameScene) {
this.scene = scene;
}
public registerListeners() {
const input = this.scene.gameInput;
input.on("toggle-menu", () => {
if (this.scene.dungeonRenderer.isMinimapVisible()) {
this.scene.dungeonRenderer.toggleMinimap();
}
this.scene.events.emit("toggle-menu");
this.scene.emitUIUpdate();
});
input.on("close-menu", () => {
this.scene.events.emit("close-menu");
if (this.scene.dungeonRenderer.isMinimapVisible()) {
this.scene.dungeonRenderer.toggleMinimap();
}
});
input.on("toggle-minimap", () => {
this.scene.events.emit("close-menu");
this.scene.dungeonRenderer.toggleMinimap();
});
input.on("toggle-inventory", () => {
this.scene.events.emit("toggle-inventory");
});
input.on("toggle-character", () => {
this.scene.events.emit("toggle-character");
});
input.on("reload", () => {
const player = this.scene.entityAccessor.getPlayer();
if (!player || !player.inventory) return;
// Check active target or main hand
const activeId = this.scene.targetingSystem.itemId;
let weaponToReload: RangedWeaponItem | null = null;
if (activeId) {
const item = player.inventory.items.find(it => it.id === activeId);
if (item && item.type === "Weapon" && item.weaponType === "ranged") {
weaponToReload = item;
}
}
if (!weaponToReload && player.equipment?.mainHand) {
const item = player.equipment.mainHand;
if (item.type === "Weapon" && item.weaponType === "ranged") {
weaponToReload = item;
}
}
if (!weaponToReload && this.scene.runState.lastReloadableWeaponId) {
const item = player.inventory.items.find(it => it.id === this.scene.runState.lastReloadableWeaponId);
if (item && item.type === "Weapon" && item.weaponType === "ranged") {
weaponToReload = item;
}
}
if (weaponToReload) {
this.scene.startReload(player, weaponToReload);
}
});
input.on("wait", () => {
if (!this.scene.awaitingPlayer) return;
// Check blocking UI
if (this.scene.isMenuOpen || this.scene.isInventoryOpen || this.scene.dungeonRenderer.isMinimapVisible()) return;
this.scene.commitPlayerAction({ type: "wait" });
});
input.on("cancel-target", () => {
if (this.scene.targetingSystem.isActive) {
this.scene.targetingSystem.cancel();
this.scene.emitUIUpdate();
}
});
input.on("zoom", (deltaY: number) => {
if (this.scene.isMenuOpen || this.scene.isInventoryOpen || this.scene.dungeonRenderer.isMinimapVisible()) return;
this.scene.cameraController.handleWheel(deltaY);
});
input.on("pan", (dx: number, dy: number) => {
if (this.scene.isMenuOpen || this.scene.isInventoryOpen || this.scene.dungeonRenderer.isMinimapVisible()) return;
this.scene.cameraController.handlePan(dx / this.scene.cameras.main.zoom, dy / this.scene.cameras.main.zoom);
});
input.on("cursor-move", (worldX: number, worldY: number) => {
if (this.scene.targetingSystem.isActive) {
const tx = Math.floor(worldX / TILE_SIZE);
const ty = Math.floor(worldY / TILE_SIZE);
const player = this.scene.entityAccessor.getPlayer();
if (player) {
this.scene.targetingSystem.updateCursor({ x: tx, y: ty }, player.pos);
}
}
});
input.on("tile-click", (tx: number, ty: number, button: number) => {
this.handleTileClick(tx, ty, button);
});
}
private handleTileClick(tx: number, ty: number, button: number) {
// Targeting Click
if (this.scene.targetingSystem.isActive) {
// Only Left Click throws
if (button === 0) {
if (this.scene.targetingSystem.cursorPos) {
this.scene.executeThrow();
}
}
return;
}
// Movement Click
if (button !== 0) return;
if (!this.scene.awaitingPlayer) return;
if (this.scene.isMenuOpen || this.scene.isInventoryOpen || this.scene.dungeonRenderer.isMinimapVisible()) return;
if (!inBounds(this.scene.world, tx, ty)) return;
if (!this.scene.dungeonRenderer.isSeen(tx, ty)) return;
const isEnemy = this.scene.entityAccessor.hasEnemyAt(tx, ty);
const player = this.scene.entityAccessor.getPlayer();
if (!player) return;
const dx = tx - player.pos.x;
const dy = ty - player.pos.y;
const isDiagonalNeighbor = Math.abs(dx) === 1 && Math.abs(dy) === 1;
if (isEnemy && isDiagonalNeighbor) {
const enemy = this.scene.entityAccessor.findEnemyAt(tx, ty);
if (enemy) {
this.scene.commitPlayerAction({ type: "attack", targetId: enemy.id });
return;
}
}
const path = findPathAStar(
this.scene.world,
this.scene.dungeonRenderer.seenArray,
{ ...player.pos },
{ x: tx, y: ty },
{ ignoreBlockedTarget: isEnemy, accessor: this.scene.entityAccessor }
);
if (path.length >= 2) this.scene.playerPath = path;
this.scene.dungeonRenderer.render(this.scene.playerPath);
}
public handleCursorMovement(): Action | null {
const { dx, dy, anyJustDown } = this.scene.gameInput.getCursorState() as any;
const now = this.scene.time.now;
if (anyJustDown) {
// Start or update chord
if (this.moveChordTime === 0) {
this.moveChordTime = now + this.CHORD_WINDOW;
}
if (dx !== 0) this.pendingDx = dx;
if (dy !== 0) this.pendingDy = dy;
}
if (this.moveChordTime > 0 && now >= this.moveChordTime) {
const finalDx = this.pendingDx;
const finalDy = this.pendingDy;
// Reset state
this.moveChordTime = 0;
this.pendingDx = 0;
this.pendingDy = 0;
if (finalDx !== 0 || finalDy !== 0) {
if (this.scene.targetingSystem.isActive) {
this.scene.targetingSystem.cancel();
this.scene.emitUIUpdate();
}
const player = this.scene.entityAccessor.getPlayer();
if (!player) return null;
const targetX = player.pos.x + finalDx;
const targetY = player.pos.y + finalDy;
const enemy = this.scene.entityAccessor.findEnemyAt(targetX, targetY);
if (enemy) {
return { type: "attack", targetId: enemy.id };
} else {
return { type: "move", dx: finalDx, dy: finalDy };
}
}
}
return null;
}
}

41
src/scenes/systems/TargetingSystem.ts
View File

@@ -3,7 +3,7 @@ import type { World, Item, Vec2, EntityId } from "../../core/types";
import { TILE_SIZE } from "../../core/constants"; import { TILE_SIZE } from "../../core/constants";
import { GAME_CONFIG } from "../../core/config/GameConfig"; import { GAME_CONFIG } from "../../core/config/GameConfig";
import { UI_CONFIG } from "../../core/config/ui"; import { UI_CONFIG } from "../../core/config/ui";
import { traceProjectile, getClosestVisibleEnemy } from "../../engine/gameplay/CombatLogic"; import { traceProjectile, getClosestVisibleEnemy, getConeTiles } from "../../engine/gameplay/CombatLogic";
import { type EntityAccessor } from "../../engine/EntityAccessor"; import { type EntityAccessor } from "../../engine/EntityAccessor";
/** /**
@@ -94,6 +94,12 @@ export class TargetingSystem {
const player = accessor.getCombatant(playerId); const player = accessor.getCombatant(playerId);
if (!player || !player.inventory) return false; if (!player || !player.inventory) return false;
// Prevent targeting self
if (this.cursor.x === player.pos.x && this.cursor.y === player.pos.y) {
console.log("Cannot target self!");
return false;
}
const itemIdx = player.inventory.items.findIndex(it => it.id === this.targetingItemId); const itemIdx = player.inventory.items.findIndex(it => it.id === this.targetingItemId);
if (itemIdx === -1) { if (itemIdx === -1) {
console.log("Item not found!"); console.log("Item not found!");
@@ -103,6 +109,18 @@ export class TargetingSystem {
const item = player.inventory.items[itemIdx]; const item = player.inventory.items[itemIdx];
const start = player.pos;
const end = { x: this.cursor.x, y: this.cursor.y };
if (item.type === "Weapon" && item.weaponType === "ceramic_dragon_head") {
if (item.charges <= 0) {
console.log("No charges left!");
return false;
}
onProjectileComplete(end, undefined, item);
return true;
}
// Only remove if it's a consumable throwable // Only remove if it's a consumable throwable
if (item.type === "Consumable" && item.throwable) { if (item.type === "Consumable" && item.throwable) {
// Handle stack decrement if applicable, or remove // Handle stack decrement if applicable, or remove
@@ -113,9 +131,6 @@ export class TargetingSystem {
} }
} }
const start = player.pos;
const end = { x: this.cursor.x, y: this.cursor.y };
const result = traceProjectile(world, start, end, accessor, playerId); const result = traceProjectile(world, start, end, accessor, playerId);
const { blockedPos, hitActorId } = result; const { blockedPos, hitActorId } = result;
@@ -190,6 +205,24 @@ export class TargetingSystem {
finalEndX = bPos.x * TILE_SIZE + TILE_SIZE / 2; finalEndX = bPos.x * TILE_SIZE + TILE_SIZE / 2;
finalEndY = bPos.y * TILE_SIZE + TILE_SIZE / 2; finalEndY = bPos.y * TILE_SIZE + TILE_SIZE / 2;
// Draw Cone if it's a ceramic dragon head
const player = this.accessor.getCombatant(this.playerId);
const item = player?.inventory?.items.find(it => it.id === this.targetingItemId);
if (item?.type === "Weapon" && item.weaponType === "ceramic_dragon_head") {
const range = item.stats.range;
const tiles = getConeTiles(playerPos, this.cursor, range);
this.graphics.fillStyle(GAME_CONFIG.ui.targetingLineColor, 0.2);
for (const tile of tiles) {
this.graphics.fillRect(
tile.x * TILE_SIZE,
tile.y * TILE_SIZE,
TILE_SIZE,
TILE_SIZE
);
}
}
} }
// Update crosshair position to ACTUAL impact point // Update crosshair position to ACTUAL impact point

3
src/scenes/systems/__tests__/ItemManager.test.ts
View File

@@ -13,7 +13,8 @@ describe('ItemManager', () => {
width: 10, width: 10,
height: 10, height: 10,
tiles: new Array(100).fill(1), // Floor tiles: new Array(100).fill(1), // Floor
exit: { x: 9, y: 9 } exit: { x: 9, y: 9 },
trackPath: []
}; };
entityAccessor = { entityAccessor = {

144
src/scenes/systems/__tests__/ReloadLastWeapon.test.ts Normal file
View File

@@ -0,0 +1,144 @@
import { describe, it, expect, vi, beforeEach } from 'vitest';
// Mock Phaser
vi.mock('phaser', () => {
class MockEventEmitter {
on = vi.fn().mockReturnThis();
once = vi.fn().mockReturnThis();
emit = vi.fn().mockReturnThis();
off = vi.fn().mockReturnThis();
removeAllListeners = vi.fn().mockReturnThis();
}
return {
default: {
Events: {
EventEmitter: MockEventEmitter
},
Scene: class {
events = new MockEventEmitter();
add = {
graphics: vi.fn(),
sprite: vi.fn(),
};
}
}
};
});
import { PlayerInputHandler } from '../PlayerInputHandler';
import type { CombatantActor, RangedWeaponItem } from '../../../core/types';
// Minimal mock for GameScene
const createMockScene = () => {
const scene = {
gameInput: {
on: vi.fn(),
},
targetingSystem: {
itemId: null,
isActive: false,
},
entityAccessor: {
getPlayer: vi.fn(),
},
runState: {
lastReloadableWeaponId: null,
},
startReload: vi.fn(),
} as any;
return scene;
};
describe('Reload Last Used Weapon Logic', () => {
let scene: any;
let inputHandler: PlayerInputHandler;
let reloadCallback: Function;
beforeEach(() => {
scene = createMockScene();
inputHandler = new PlayerInputHandler(scene);
inputHandler.registerListeners();
// Find the reload listener
const reloadCall = scene.gameInput.on.mock.calls.find((call: any[]) => call[0] === 'reload');
reloadCallback = reloadCall[1];
});
it('should reload the last reloadable weapon if nothing else is targeted or equipped', () => {
const pistol: RangedWeaponItem = {
id: 'pistol-1',
name: 'Pistol',
type: 'Weapon',
weaponType: 'ranged',
currentAmmo: 0,
reloadingTurnsLeft: 0,
stats: { attack: 1, range: 5, magazineSize: 6, ammoType: '9mm', projectileSpeed: 10 },
textureKey: 'weapons',
spriteIndex: 0
};
const player: CombatantActor = {
id: 1,
pos: { x: 0, y: 0 },
category: 'combatant',
isPlayer: true,
type: 'player',
inventory: { items: [pistol], gold: 0 },
equipment: { mainHand: { type: 'Weapon', weaponType: 'melee', id: 'sword-1' } as any },
stats: {} as any,
energy: 100,
speed: 100
};
scene.entityAccessor.getPlayer.mockReturnValue(player);
scene.runState.lastReloadableWeaponId = 'pistol-1';
// Trigger reload (simulating 'R' press)
reloadCallback();
expect(scene.startReload).toHaveBeenCalledWith(player, pistol);
});
it('should prioritize targeted item over last used', () => {
const pistol1: RangedWeaponItem = { id: 'p1', name: 'P1', type: 'Weapon', weaponType: 'ranged' } as any;
const pistol2: RangedWeaponItem = { id: 'p2', name: 'P2', type: 'Weapon', weaponType: 'ranged' } as any;
const player: CombatantActor = {
id: 1, inventory: { items: [pistol1, pistol2] }, equipment: {}
} as any;
scene.entityAccessor.getPlayer.mockReturnValue(player);
scene.targetingSystem.itemId = 'p2';
scene.runState.lastReloadableWeaponId = 'p1';
reloadCallback();
expect(scene.startReload).toHaveBeenCalledWith(player, pistol2);
});
it('should prioritize equipped ranged weapon over last used', () => {
const pistol1: RangedWeaponItem = { id: 'p1', name: 'P1', type: 'Weapon', weaponType: 'ranged' } as any;
const pistol2: RangedWeaponItem = { id: 'p2', name: 'P2', type: 'Weapon', weaponType: 'ranged' } as any;
const player: CombatantActor = {
id: 1, inventory: { items: [pistol1, pistol2] }, equipment: { mainHand: pistol2 }
} as any;
scene.entityAccessor.getPlayer.mockReturnValue(player);
scene.runState.lastReloadableWeaponId = 'p1';
reloadCallback();
expect(scene.startReload).toHaveBeenCalledWith(player, pistol2);
});
it('should do nothing if no weapon is found', () => {
const player: CombatantActor = { id: 1, inventory: { items: [] }, equipment: {} } as any;
scene.entityAccessor.getPlayer.mockReturnValue(player);
reloadCallback();
expect(scene.startReload).not.toHaveBeenCalled();
});
});

59
src/scenes/systems/__tests__/TargetingSystem.test.ts
View File

@@ -97,11 +97,19 @@ describe('TargetingSystem', () => {
const enemyPos = { x: 3, y: 3 }; const enemyPos = { x: 3, y: 3 };
(getClosestVisibleEnemy as any).mockReturnValue(enemyPos); (getClosestVisibleEnemy as any).mockReturnValue(enemyPos);
const mockAccessor = {
getCombatant: vi.fn().mockReturnValue({
pos: playerPos,
inventory: { items: [{ id: 'item-1' }] }
}),
context: {}
};
targetingSystem.startTargeting( targetingSystem.startTargeting(
'item-1', 'item-1',
playerPos, playerPos,
mockWorld, mockWorld,
{} as any, // accessor mockAccessor as any,
1 as EntityId, // playerId 1 as EntityId, // playerId
new Uint8Array(100), new Uint8Array(100),
10 10
@@ -118,11 +126,19 @@ describe('TargetingSystem', () => {
const mousePos = { x: 5, y: 5 }; const mousePos = { x: 5, y: 5 };
(getClosestVisibleEnemy as any).mockReturnValue(null); (getClosestVisibleEnemy as any).mockReturnValue(null);
const mockAccessor = {
getCombatant: vi.fn().mockReturnValue({
pos: playerPos,
inventory: { items: [{ id: 'item-1' }] }
}),
context: {}
};
targetingSystem.startTargeting( targetingSystem.startTargeting(
'item-1', 'item-1',
playerPos, playerPos,
mockWorld, mockWorld,
{} as any, // accessor mockAccessor as any,
1 as EntityId, // playerId 1 as EntityId, // playerId
new Uint8Array(100), new Uint8Array(100),
10, 10,
@@ -143,12 +159,20 @@ describe('TargetingSystem', () => {
path: [] path: []
}); });
const mockAccessor = {
getCombatant: vi.fn().mockReturnValue({
pos: playerPos,
inventory: { items: [{ id: 'item-1' }] }
}),
context: {}
};
// Start targeting // Start targeting
targetingSystem.startTargeting( targetingSystem.startTargeting(
'item-1', 'item-1',
playerPos, playerPos,
mockWorld, mockWorld,
{} as any, // accessor mockAccessor as any,
1 as EntityId, 1 as EntityId,
new Uint8Array(100), new Uint8Array(100),
10, 10,
@@ -171,4 +195,33 @@ describe('TargetingSystem', () => {
expect(mockGraphics.clear).toHaveBeenCalled(); expect(mockGraphics.clear).toHaveBeenCalled();
expect(mockSprite.setVisible).toHaveBeenCalledWith(false); expect(mockSprite.setVisible).toHaveBeenCalledWith(false);
}); });
it('should prevent targeting self', () => {
const playerPos = { x: 1, y: 1 };
// Setup targeting
targetingSystem.startTargeting(
'item-1',
playerPos,
mockWorld,
{ getCombatant: vi.fn().mockReturnValue({ pos: playerPos, inventory: { items: [{ id: 'item-1' }] } }) } as any,
1 as EntityId,
new Uint8Array(100),
10
);
// Manually set cursor to player pos (startTargeting might do it, but we ensure it)
targetingSystem.updateCursor(playerPos, playerPos);
const callback = vi.fn();
const result = targetingSystem.executeThrow(
mockWorld,
1 as EntityId,
{ getCombatant: vi.fn().mockReturnValue({ pos: playerPos, inventory: { items: [{ id: 'item-1' }] } }) } as any,
callback
);
expect(result).toBe(false);
expect(callback).not.toHaveBeenCalled();
});
}); });

150
src/ui/components/QuickSlotComponent.ts
View File

@@ -1,15 +1,17 @@
import Phaser from "phaser"; import Phaser from "phaser";
import type { CombatantActor, Item } from "../../core/types"; import type { CombatantActor, Item } from "../../core/types";
import { ItemSpriteFactory } from "../../rendering/ItemSpriteFactory"; import { ItemSpriteFactory } from "../../rendering/ItemSpriteFactory";
import { GAME_CONFIG } from "../../core/config/GameConfig";
export class QuickSlotComponent { export class QuickSlotComponent {
private scene: Phaser.Scene; private scene: Phaser.Scene;
private container!: Phaser.GameObjects.Container; private container!: Phaser.GameObjects.Container;
private slots: Phaser.GameObjects.Container[] = []; private slots: Phaser.GameObjects.Container[] = [];
private itemMap: (Item | null)[] = new Array(10).fill(null); private itemMap: (Item | null)[] = new Array(10).fill(null);
private assignedIds: string[] = ["health_potion", "pistol", "throwing_dagger", ...new Array(7).fill("")]; private assignedIds: string[] = ["health_potion", "pistol", "throwing_dagger", "ceramic_dragon_head", ...new Array(6).fill("")];
private draggedSlotIndex: number | null = null; private draggedSlotIndex: number | null = null;
private dragIcon: Phaser.GameObjects.Sprite | null = null; private dragIcon: Phaser.GameObjects.Sprite | null = null;
private reloadSliderContainer!: Phaser.GameObjects.Container;
constructor(scene: Phaser.Scene) { constructor(scene: Phaser.Scene) {
this.scene = scene; this.scene = scene;
@@ -181,6 +183,13 @@ export class QuickSlotComponent {
this.scene.input.keyboard?.on("keydown-EIGHT", () => this.activateSlot(7)); this.scene.input.keyboard?.on("keydown-EIGHT", () => this.activateSlot(7));
this.scene.input.keyboard?.on("keydown-NINE", () => this.activateSlot(8)); this.scene.input.keyboard?.on("keydown-NINE", () => this.activateSlot(8));
this.scene.input.keyboard?.on("keydown-ZERO", () => this.activateSlot(9)); this.scene.input.keyboard?.on("keydown-ZERO", () => this.activateSlot(9));
// Global Slider Container
this.reloadSliderContainer = this.scene.add.container(
totalWidth / 2,
-40
);
this.container.add(this.reloadSliderContainer);
} }
update(player: CombatantActor, activeItemId?: string | null) { update(player: CombatantActor, activeItemId?: string | null) {
@@ -222,11 +231,16 @@ export class QuickSlotComponent {
if (foundItem) { if (foundItem) {
// Use ItemSpriteFactory for glow effect on variants // Use ItemSpriteFactory for glow effect on variants
// Standalone images (24x24) need less scaling than 16x16 sprites
const isStandalone = foundItem.spriteIndex === undefined || foundItem.spriteIndex === 0;
const itemScale = isStandalone ? 1.5 : 2.5;
const itemContainer = ItemSpriteFactory.createItemSprite( const itemContainer = ItemSpriteFactory.createItemSprite(
this.scene, foundItem, slotSize / 2, slotSize / 2, 2.5 this.scene, foundItem, slotSize / 2, slotSize / 2, itemScale
); );
slot.add(itemContainer); slot.add(itemContainer);
// Unified Label (Bottom-Right) // Unified Label (Bottom-Right)
let labelText = ""; let labelText = "";
if (foundItem.stackable) { if (foundItem.stackable) {
@@ -238,6 +252,9 @@ export class QuickSlotComponent {
} else if (foundItem.type === "Weapon" && foundItem.weaponType === "ranged" && foundItem.stats) { } else if (foundItem.type === "Weapon" && foundItem.weaponType === "ranged" && foundItem.stats) {
// Show ammo for non-stackable ranged weapons // Show ammo for non-stackable ranged weapons
labelText = `${foundItem.currentAmmo}/${foundItem.stats.magazineSize}`; labelText = `${foundItem.currentAmmo}/${foundItem.stats.magazineSize}`;
} else if (foundItem.type === "Weapon" && foundItem.weaponType === "ceramic_dragon_head") {
// Show charges for ceramic dragon head
labelText = `${foundItem.charges}/${foundItem.maxCharges}`;
} }
if (labelText) { if (labelText) {
@@ -251,16 +268,13 @@ export class QuickSlotComponent {
slot.add(display); slot.add(display);
} }
// Reloading overlay // Reloading overlay logic removed from individual slots -> Replacing with active lock symbol
if (foundItem.type === "Weapon" && foundItem.weaponType === "ranged" && foundItem.reloadingTurnsLeft > 0) { if (foundItem.type === "Weapon" && foundItem.weaponType === "ranged" && foundItem.reloadingTurnsLeft > 0) {
const reloadText = this.scene.add.text(slotSize / 2, slotSize / 2, "RELOADING", { // Transparent grey overlay
fontSize: "8px", const overlay = this.scene.add.graphics();
color: "#ff0000", overlay.fillStyle(0x000000, 0.5);
fontStyle: "bold", overlay.fillRect(0, 0, slotSize, slotSize);
backgroundColor: "#000000aa", slot.add(overlay);
padding: { x: 2, y: 1 }
}).setOrigin(0.5, 0.5);
slot.add(reloadText);
} }
} }
} else { } else {
@@ -273,6 +287,120 @@ export class QuickSlotComponent {
bgGraphics.strokeRect(0, 0, slotSize, slotSize); bgGraphics.strokeRect(0, 0, slotSize, slotSize);
} }
} }
// -----------------------------------------------------------------------
// Global Reload Slider Logic
// -----------------------------------------------------------------------
this.reloadSliderContainer.removeAll(true);
// Find ANY reloading item in the inventory (that needs the UI)
// Usually the active one, or just the first one found since turn-based RL doesn't do parallel reloading much
const reloadingItem = player.inventory.items.find(
it => it.type === "Weapon" && it.weaponType === "ranged" && it.reloadingTurnsLeft > 0
) as any; // Cast for easier access to RangedWeaponItem props
if (reloadingItem) {
const maxTurns = GAME_CONFIG.player.reloadDuration;
const progress = 1 - (reloadingItem.reloadingTurnsLeft / maxTurns);
const sliderWidth = 260; // Half of ~520px
const sliderHeight = 14;
const grooveColor = 0x1a1a1a;
const trackColor = 0x4a4a4a; // Stone Grey
const handleColor = 0x888888; // Lighter Stone
// 1. Draw Track Base (Stone Slab)
const g = this.scene.add.graphics();
// Stone Border / Bevel
g.lineStyle(4, 0x666666); // Light edge (Top/Left)
g.beginPath();
g.moveTo(-sliderWidth / 2, sliderHeight / 2);
g.lineTo(-sliderWidth / 2, -sliderHeight / 2);
g.lineTo(sliderWidth / 2, -sliderHeight / 2);
g.strokePath();
g.lineStyle(4, 0x222222); // Dark edge (Bottom/Right)
g.beginPath();
g.moveTo(sliderWidth / 2, -sliderHeight / 2);
g.lineTo(sliderWidth / 2, sliderHeight / 2);
g.lineTo(-sliderWidth / 2, sliderHeight / 2);
g.strokePath();
// Main Track Body
g.fillStyle(trackColor);
g.fillRect(-sliderWidth / 2, -sliderHeight / 2, sliderWidth, sliderHeight);
// Groove (Chiseled out)
g.fillStyle(grooveColor);
g.fillRect(-sliderWidth / 2 + 4, -2, sliderWidth - 8, 4);
// Tick marks (Etched into stone)
g.lineStyle(2, 0x222222, 0.5);
// Draw ticks based on actual turns
for (let k = 0; k <= maxTurns; k++) {
const tx = (-sliderWidth / 2 + 4) + (k * ((sliderWidth - 8) / maxTurns));
g.moveTo(tx, -sliderHeight / 2);
g.lineTo(tx, -4); // Stop at groove
g.moveTo(tx, 4); // Start after groove
g.lineTo(tx, sliderHeight / 2);
}
g.strokePath();
this.reloadSliderContainer.add(g);
// 2. Draw Handle / Knob (Stone Block)
const safeProgress = Math.max(0, Math.min(1, progress));
const knobWidth = 20;
const knobHeight = 28;
const travelLength = (sliderWidth - 8) - knobWidth; // Subtract padding/groove end
const startX = (-sliderWidth / 2 + 4) + knobWidth / 2;
const knobX = startX + (safeProgress * travelLength);
const knob = this.scene.add.graphics();
// Knob Body
knob.fillStyle(handleColor);
knob.fillRect(knobX - knobWidth / 2, -knobHeight / 2, knobWidth, knobHeight);
// Stone texture (noise/dots) - simplified as darker specks
knob.fillStyle(0x555555, 0.4);
knob.fillRect(knobX - knobWidth / 2 + 2, -knobHeight / 2 + 2, 4, 4);
knob.fillRect(knobX + knobWidth / 2 - 6, knobHeight / 2 - 6, 4, 4);
// 3D Bevel for Block
knob.lineStyle(2, 0xaaaaaa); // Highlight
knob.beginPath();
knob.moveTo(knobX - knobWidth / 2, knobHeight / 2);
knob.lineTo(knobX - knobWidth / 2, -knobHeight / 2);
knob.lineTo(knobX + knobWidth / 2, -knobHeight / 2);
knob.strokePath();
knob.lineStyle(2, 0x333333); // Shadow
knob.beginPath();
knob.moveTo(knobX + knobWidth / 2, -knobHeight / 2);
knob.lineTo(knobX + knobWidth / 2, knobHeight / 2);
knob.lineTo(knobX - knobWidth / 2, knobHeight / 2);
knob.strokePath();
// Center indent line
knob.lineStyle(2, 0x444444);
knob.moveTo(knobX, -knobHeight / 2 + 6);
knob.lineTo(knobX, knobHeight / 2 - 6);
knob.strokePath();
this.reloadSliderContainer.add(knob);
const label = this.scene.add.text(0, sliderHeight + 4, "RELOADING", {
fontSize: "12px",
color: "#888888",
fontFamily: "monospace",
fontStyle: "bold",
shadow: { offsetX: 1, offsetY: 1, color: "#000000", blur: 0, stroke: true, fill: true }
}).setOrigin(0.5, 0);
this.reloadSliderContainer.add(label);
}
} }
private activateSlot(index: number) { private activateSlot(index: number) {