megaproxy
1b6ad2bcc6
The 'drama pair' shipped together via 3-agent fan-out. Phase 9 — Status effects + Medicine: - Status data class (PERSISTENT/EVENT, severity stacks max=3) + StatusCatalog (Bleeding ticks HP loss; Downed = incapacitated) - Pawn HP (100 max, 30 downed threshold, 50 revive threshold), take_damage, heal, add_status/remove_status_by_id, is_downed/is_incapacitated, downed visual (body rotated 90° + desaturated) - DoctorProvider (priority 9, highest) — scans World.pawns for nearest downed pawn, finds medical bed (or any bed fallback), emits 4-toil job: walk_to_patient → rescue → walk_to_bed → treat - Bed.is_medical with red-cross marker draw on pillow; round-trips save - KIND_RESCUE + KIND_TREAT toils + JobRunner _tick_rescue/_tick_treat (snap-to-bed on first treat tick, +0.5 hp/tick, bleed cure at 100-tick intervals; done at HP≥50 + no bleeding, 600-tick timeout) - EventBus: pawn_took_damage, pawn_status_added, pawn_status_removed Phase 10 — Combat + Wolves (wolf-first slice): - Wolf entity (Node2D, 4-state APPROACH/ENGAGE/FLEE/DEAD, procedural canine sprite with red glowing eyes, 40 HP) - Two-roll combat: 70% hit + 50% chance to apply Bleeding(1) on hit - WolfSpawner — triggers at Clock.darkness_factor()≥0.8 with 1-in-game-day cooldown, packs of 1–2 at random map-edge cluster - World.wolves registry + register_wolf/unregister_wolf Integration: world.tscn load_steps 15→17 with DoctorProvider + WolfSpawner nodes. world.gd registers doctor at top of provider list (priority 9 > sleep 8 > eat 7 > construction 6 > chop≈plant 5 > mine≈craft 4 > haul 3 > rest 0). Middle bed at (47,24) marked is_medical=true. MCP runtime verified: Bram took 75 dmg + Bleeding(2) → Downed (hp 25) → Edda + Cora both volunteered doctor job → walked to patient → carried to medical bed → treated → Bram healed to 94.2 hp, statuses cleared, back to work. Wolf raid at day 3 22:00 fired; 4 wolves alive across raid cycles by day 4 01:51. Screenshots confirm red-cross medical bed and wolf silhouettes at night. Phase 10 deliberately partial: wolf-side combat ships, pawn-side weapons/armor/cover/friendly-fire deferred — full chain (wolf→bites→pawn→bleeds→doctor) awaits player weapons. Bleed-out timer at demo value (1200) vs design value (432000 = 6 in-game hours) — documented in status_catalog.gd for first time-balance pass. Delegation: Agent A (status + pawn HP), Agent B (doctor + treatment), Agent C (wolf + spawner) — all Sonnet gdscript-refactor; integration on Opus. Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
281 lines
8.7 KiB
GDScript
281 lines
8.7 KiB
GDScript
extends Node
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## Runtime entity registry + tile-related sim state.
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##
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## All gameplay entities (pawns, items, furniture, animals, corpses) live here.
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## TileMap data is owned by the world-view scene; World holds the *indirect*
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## state (designation queue, dirty-haul set, zone records, etc.) that doesn't
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## belong on the TileMap itself.
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##
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## See docs/architecture.md.
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# Phase 2 — pawn registry. items/furniture/animals/corpses arrive in later phases.
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var pawns: Array[Pawn] = []
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# Phase 3 — work providers (e.g. RestProvider, ChopProvider, HaulingProvider).
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# World scene registers them on _ready. Decision.pick_next_job() iterates by .priority desc.
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var work_providers: Array = []
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# Phase 4 — harvestables + items + stockpiles. Entities call register_*/unregister_*
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# from their _ready/_exit_tree. Phase 16 will add stable IDs and persistence wiring.
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var trees: Array = [] # Array of Tree
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var rocks: Array = [] # Array of Rock
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var items: Array = [] # Array of Item (on-floor stacks)
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var stockpiles: Array = [] # Array of StorageDestination (StockpileZone for now; containers Phase 5)
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# Phase 4 — pathfinder reference exposed for entity code that needs walkability
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# checks (e.g. Tree.fell() picking neighbour tiles for wood drops). The actual
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# Pathfinder node lives on the World scene as a child; the scene sets this in
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# its _ready(). Don't access before the world scene is mounted.
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var pathfinder = null
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# Phase 5 — build queue. Holds Wall/Floor/Door/Crate ghost entities (not yet
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# completed). ConstructionProvider iterates this for the nearest buildable site.
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# Entities call register_build_site() in _ready and unregister_build_site() when
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# they finish or are cancelled.
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var build_queue: Array = []
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# Phase 5 — completed Door entities, keyed for future open/close logic.
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# Door._complete() calls register_door(); Phase 7+ uses this for toggling.
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var doors: Array = []
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# Phase 6 — workbench entities. Workbench._ready() calls register_workbench();
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# _exit_tree() calls unregister_workbench(). CraftingProvider iterates this
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# to find bench+bill pairs for eligible pawns.
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var workbenches: Array = []
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# Phase 7 — crop entities. Crop._ready() calls register_crop();
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# _exit_tree() calls unregister_crop(). PlantProvider iterates this to find
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# harvestable (READY) and sowable (TILLED) crops for eligible pawns.
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var crops: Array = []
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# Phase 8 — bed entities. Bed._ready() calls register_bed();
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# _exit_tree() calls unregister_bed(). SleepProvider iterates this to find
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# available (completed, unoccupied) beds for tired pawns.
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# Storyteller also reads beds.size() for the "First Beds" state predicate.
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var beds: Array = []
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# Phase 11 — light-source entities (Torch + Hearth workbench). Entities call
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# register_light_source() in _ready and unregister_light_source() in _exit_tree.
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# is_tile_lit() is queried by the "in darkness" thought and any future
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# darkness-rendering shader bridge. All entries expose the duck-type interface:
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# is_on() → bool | get_light_tile() → Vector2i | get_light_radius() → int
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var light_sources: Array = []
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# Phase 10 — wolf entities. Wolf._ready() calls register_wolf();
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# Wolf._exit_tree() calls unregister_wolf(). WolfSpawner reads/writes
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# nothing from this array directly — it only add_child()s new wolves.
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# CombatSystem (Phase 10) will iterate this for threat detection.
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# Untyped array — avoids class_name ordering window (Phase 2 gotcha).
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var wolves: Array = []
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# Phase 4 — hauling dirty set. Keys are Items, value is unused (we just use .keys()).
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# An Item is added when it spawns (Tree.fell, Rock.mined, workbench drop, ...)
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# and removed when it lands at its highest-priority valid destination.
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# HaulingProvider.sweep_for_better_destinations() re-marks items when a higher
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# priority stockpile opens up (the priority cascade per design.md).
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var items_needing_haul: Dictionary = {}
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func register_work_provider(wp) -> void:
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assert(wp != null, "World.register_work_provider: provider is null")
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if not work_providers.has(wp):
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work_providers.append(wp)
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func clear_work_providers() -> void:
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work_providers.clear()
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func register_pawn(p: Pawn) -> void:
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assert(p != null, "World.register_pawn: pawn is null")
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if pawns.has(p):
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return
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pawns.append(p)
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func unregister_pawn(p: Pawn) -> void:
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pawns.erase(p)
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func pawn_at_tile(tile: Vector2i) -> Pawn:
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for p in pawns:
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if p.tile == tile:
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return p
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return null
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func clear_pawns() -> void:
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# For save-load / new-game flow in Phase 16.
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pawns.clear()
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# ── Phase 4: harvestables + items + stockpiles ──────────────────────────────
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func register_tree(t) -> void:
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if not trees.has(t):
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trees.append(t)
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func unregister_tree(t) -> void:
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trees.erase(t)
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func register_rock(r) -> void:
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if not rocks.has(r):
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rocks.append(r)
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func unregister_rock(r) -> void:
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rocks.erase(r)
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func register_item(it) -> void:
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if items.has(it):
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return
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items.append(it)
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# Newly-spawned items always start as "needs haul" — HaulingProvider will
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# clear the flag once the item lands in its highest-priority destination.
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items_needing_haul[it] = true
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func unregister_item(it) -> void:
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items.erase(it)
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items_needing_haul.erase(it)
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func register_stockpile(s) -> void:
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if not stockpiles.has(s):
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stockpiles.append(s)
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func unregister_stockpile(s) -> void:
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stockpiles.erase(s)
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func mark_item_needs_haul(it) -> void:
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items_needing_haul[it] = true
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func clear_item_haul_flag(it) -> void:
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items_needing_haul.erase(it)
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# ── Phase 5: build queue + tile-data stamping for walls / floors ────────────
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func register_build_site(entity) -> void:
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if not build_queue.has(entity):
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build_queue.append(entity)
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func unregister_build_site(entity) -> void:
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build_queue.erase(entity)
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func register_door(d) -> void:
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if not doors.has(d):
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doors.append(d)
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func unregister_door(d) -> void:
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doors.erase(d)
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func register_workbench(wb) -> void:
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if not workbenches.has(wb):
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workbenches.append(wb)
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func unregister_workbench(wb) -> void:
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workbenches.erase(wb)
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func register_crop(c) -> void:
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if not crops.has(c):
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crops.append(c)
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func unregister_crop(c) -> void:
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crops.erase(c)
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func register_bed(b) -> void:
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if not beds.has(b):
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beds.append(b)
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func unregister_bed(b) -> void:
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beds.erase(b)
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# ── Phase 11: light-source registry ────────────────────────────────────────
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func register_light_source(ls) -> void:
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if not light_sources.has(ls):
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light_sources.append(ls)
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func unregister_light_source(ls) -> void:
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light_sources.erase(ls)
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# ── Phase 10: wolf registry ────────────────────────────────────────────────
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func register_wolf(w) -> void:
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if not wolves.has(w):
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wolves.append(w)
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func unregister_wolf(w) -> void:
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wolves.erase(w)
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## Returns true if `tile` is within get_light_radius() of any is_on() light
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## source. Uses Manhattan distance (no wall-occlusion in Phase 11; Phase 13
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## may add BFS-based occlusion through the room/roof system).
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##
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## Called by the "in darkness" Thought trigger on each pawn sim tick.
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## O(light_sources) per call; trivial at our scale (< 50 sources in MVP).
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func is_tile_lit(p_tile: Vector2i) -> bool:
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for ls in light_sources:
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if not ls.is_on():
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continue
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var d: int = abs(ls.get_light_tile().x - p_tile.x) + abs(ls.get_light_tile().y - p_tile.y)
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if d <= ls.get_light_radius():
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return true
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return false
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# Called by Wall.on_build_tick() when construction completes.
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# Stamps the data-only Wall TileMap layer so room/roof/save logic sees the
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# wall. World scene exposes wall_layer via a getter set during _ready.
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var wall_layer = null
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var floor_layer = null
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var designation_layer = null
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func mark_wall_tile(tile: Vector2i, material: StringName) -> void:
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if wall_layer == null:
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Audit.log("world", "mark_wall_tile: layer not yet wired — skipping")
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return
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# Atlas coord encodes material — for Phase 5 placeholder atlas:
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# stone → (2, 0), dark stone → (3, 0)
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# Real material→atlas mapping lands when assets are imported.
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var atlas := Vector2i(2, 0) if material == &"stone" else Vector2i(3, 0)
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wall_layer.set_cell(tile, 0, atlas)
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func mark_floor_tile(tile: Vector2i, material: StringName) -> void:
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if floor_layer == null:
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return
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var atlas := Vector2i(1, 0) if material == &"dirt" else Vector2i(2, 0)
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floor_layer.set_cell(tile, 0, atlas)
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# Returns the first StockpileZone OR Crate covering `tile`, or null.
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# Used by JobRunner._tick_deposit (Phase 5 refactor) to route deposits into
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# Crate contents when applicable.
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func stockpile_at_tile(tile: Vector2i):
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for sp in stockpiles:
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if sp.covers_tile(tile):
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return sp
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return null
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