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rimlike/scenes/ai/toil.gd
megaproxy 91bceeebe8 Phase 4 — Trees, Rocks, Items, Stockpiles, Hauling 
Three gdscript-refactor agents in parallel + Opus integration.

Entities (scenes/entities/, Agent A — 3 scripts + 3 .tscn, ~460 lines):
- item.gd: 16-type StringName registry (matches design.md filter chips);
  Node2D + _draw() colored square + stack-count badge; to_dict/from_dict
- tree.gd: class_name HarvestableTree (Godot 4 ships a built-in 'Tree'
  Control class — renamed to avoid the shadow); CHOP_TICKS=80; on_chop_tick
  advances progress, fells when complete, drops 3 wood items at tile +
  walkable neighbours
- rock.gd: MINE_TICKS=120; angular polygon _draw; mined() drops 1 stone

Toil + provider extensions (scenes/ai/, Agent B — 4 files modified/added,
~250 lines):
- Toil: new KIND_INTERACT (timed entity action), KIND_PICKUP, KIND_DEPOSIT
- JobRunner: _tick_interact resolves NodePath, calls target.<method>()
  each tick, marks done when is_choppable/is_mineable returns false;
  _tick_pickup finds Item at pawn.tile, transfers to pawn.carried_item;
  _tick_deposit places carried_item at pawn.tile + clears the
  items_needing_haul dirty flag
- ChopProvider (priority=5): nearest choppable tree; Job=[walk_to + interact]
- MineProvider (priority=4): same for rocks

Hauling system (scenes/world/ + scenes/ai/, Agent C — 4 files, ~330 lines):
- StorageDestination: abstract Node2D base; Priority enum CRITICAL=0..OFF=4;
  accepted_types (empty=wildcard); _filter_accepts() helper
- StockpileZone: concrete rect-region zone; _draw paints priority-tinted
  overlay (z_index=-1); find_drop_position scans for free cells respecting
  one-stack-per-tile rule
- HaulingProvider (priority=3): nearest dirty item × best destination →
  4-toil job [walk → pickup → walk → deposit]; sweep_for_better_destinations
  enables the priority cascade (items in lower-priority zones re-mark dirty
  when a higher-priority destination opens up)

Opus integration (~200 lines):
- World autoload: trees/rocks/items/items_needing_haul/stockpiles registries
  + register/unregister methods; pathfinder reference exposed for entity
  code (tree.fell needs is_walkable for neighbour drops)
- Pawn: carried_item slot + carry-indicator (small colored rect upper-right
  of body) via queue_redraw in _on_sim_tick
- World scene: registers chop/mine/haul/rest providers; spawns 6 trees
  (cluster east-north), 4 rocks (south-east), 2 stockpile zones (Zone A
  wood-only NORMAL, Zone B wildcard HIGH); periodic
  hauling_provider.sweep_for_better_destinations every 100 sim ticks

Acceptance — MCP-verified end-to-end (the full Phase 4 loop):
- 3 pawns boot, Decision picks chop (highest priority work), all walk to
  nearest tree, chop in parallel (3× speed because all 3 call on_chop_tick
  per tick). Trees fell, drop wood (18 items). Pawns move to rocks, mine,
  drop stone (4 items). Total 22 items spawn.
- HaulingProvider routes wood + stone toward Zone B (wildcard HIGH > Zone
  A's wood-only NORMAL). Pawns carry items one at a time, visual indicator
  shows during transit. Items deposit, items_needing_haul dirty flag
  clears.
- **Priority cascade test:** Zone A promoted from NORMAL to CRITICAL.
  Manually-triggered sweep marks 3 wood items in Zone B for re-haul.
  Within a few thousand ticks: Zone A has 5 wood (cascaded from Zone B),
  Zone B has 4 stone only (wood left, stone stayed because Zone A rejects
  stone). Filter + priority cascade working exactly per design.md spec.

Phase 4 gotchas (logged in implementation.md):
- 'Tree' shadows Godot 4's built-in Tree Control class — class_name had to
  be renamed to HarvestableTree. Scene/file names stayed as 'tree' since
  the game concept is still 'tree'; the rename only affects code-side
  type references.
- draw_colored_polygon(points, color) takes a SINGLE Color, not a
  PackedColorArray. Agent C had to be reminded; draw_polygon(points, colors)
  is the variant that takes per-vertex colors.
- Godot's class-name cache lags behind file changes — a full editor scan
  ('godot --headless --editor --quit') is needed to flush. Even after
  reload_project, type-annotation assignments can fail; duck-typed
  variables ('var x = scene.instantiate()') sidestep the issue.
- JobRunner's _tick_deposit had to explicitly call
  World.clear_item_haul_flag — the dirty set persisted otherwise and
  items appeared 'needing haul' even after deposit.

Delegation report this phase:
- Agent A (Sonnet, gdscript-refactor): Tree + Rock + Item entities + i18n
  keys. ~460 lines.
- Agent B (Sonnet, gdscript-refactor): Toil extensions + JobRunner handlers
  + ChopProvider + MineProvider. ~250 lines.
- Agent C (Sonnet, gdscript-refactor): StorageDestination + StockpileZone
  + HaulingProvider with cascade sweep. ~330 lines.
- Opus: World autoload extensions (entity registries + pathfinder ref),
  Pawn carry slot + visual, world.tscn/gd wiring, the Tree rename, the
  draw_colored_polygon fix, the dirty-set-clear fix, MCP-driven runtime
  verification including the full chop-mine-haul loop and the priority
  cascade demo.

~75% of Phase 4's GDScript was subagent-authored.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-05-10 21:32:39 +01:00

114 lines
3.9 KiB
GDScript
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class_name Toil extends RefCounted
## A single atomic step within a Job — walk, wait, idle, etc.
##
## Save/load contract: every value in `data` MUST be JSON-safe.
## Vector2i is NOT JSON-safe in Godot 4 — tile coordinates are stored as
## "to_x"/"to_y" integer keys, never as Vector2i. get_walk_destination()
## reconstructs Vector2i on demand.
##
## Round-trip invariant:
## var t2 := Toil.from_dict(t.to_dict())
## assert(t2.kind == t.kind and t2.done == t.done and t2.data == t.data)
const KIND_WALK: StringName = &"walk"
const KIND_WAIT: StringName = &"wait"
const KIND_IDLE: StringName = &"idle"
const KIND_INTERACT: StringName = &"interact" # Timed action on a target entity (Tree, Rock, …)
const KIND_PICKUP: StringName = &"pickup" # Transfer Item at pawn.tile into pawn.carried_item
const KIND_DEPOSIT: StringName = &"deposit" # Place pawn.carried_item at pawn.tile
var kind: StringName = KIND_IDLE
## Toil-specific params — all values must be int, float, bool, String, Dict, or Array.
var data: Dictionary = {}
## Set by JobRunner when this toil is complete.
var done: bool = false
# ── factories ────────────────────────────────────────────────────────────────
## Walk to the given tile. Stores coords as separate ints for JSON safety.
static func walk_to(tile: Vector2i) -> Toil:
var t := Toil.new()
t.kind = KIND_WALK
t.data = {
"to_x": tile.x,
"to_y": tile.y,
"started": false,
}
return t
## Pause for `n` sim ticks.
static func wait_ticks(n: int) -> Toil:
var t := Toil.new()
t.kind = KIND_WAIT
t.data = {"ticks_remaining": n}
return t
## Stand idle — never completes on its own; JobRunner must cancel or replace.
static func idle() -> Toil:
var t := Toil.new()
t.kind = KIND_IDLE
t.data = {}
return t
## Timed action on a scene-node target (Tree, Rock, …).
## `target_node_path` is the NodePath of the entity; stored as String for JSON safety.
## `tick_method` is the method to call each sim tick (e.g. "on_chop_tick").
## JobRunner resolves the node at first-tick and calls tick_method every sim tick
## until the target is no longer choppable/mineable (method source sets done via
## is_choppable() / is_mineable() returning false).
static func interact(target_node_path: NodePath, tick_method: StringName) -> Toil:
var t := Toil.new()
t.kind = KIND_INTERACT
t.data = {
"target": String(target_node_path),
"tick_method": String(tick_method),
"started": false,
}
return t
## Pick up an Item at pawn.tile into pawn.carried_item. Single-tick action.
## data is empty — the item is located at pawn.tile at execution time.
static func pickup() -> Toil:
var t := Toil.new()
t.kind = KIND_PICKUP
t.data = {}
return t
## Place pawn.carried_item at pawn.tile. Single-tick action.
## data is empty — the item comes from pawn.carried_item at execution time.
static func deposit() -> Toil:
var t := Toil.new()
t.kind = KIND_DEPOSIT
t.data = {}
return t
# ── save / load ──────────────────────────────────────────────────────────────
func to_dict() -> Dictionary:
return {
"kind": str(kind),
"data": data.duplicate(true),
"done": done,
}
static func from_dict(d: Dictionary) -> Toil:
var t := Toil.new()
t.kind = StringName(d.get("kind", str(KIND_IDLE)))
t.data = (d.get("data", {}) as Dictionary).duplicate(true)
t.done = d.get("done", false)
return t
# ── convenience ──────────────────────────────────────────────────────────────
## Rebuild Vector2i from the JSON-safe int fields. Only valid for KIND_WALK.
func get_walk_destination() -> Vector2i:
return Vector2i(data.get("to_x", 0), data.get("to_y", 0))
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