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rimlike/scenes/entities/workbench.gd
megaproxy 19d28ca9f8 Phase 16: Save/load full coverage + autosave + UI 
Three-agent fan-out reusing the contracts-first pattern: Opus pre-wrote
World.clear_all + 4 EventBus signals (save_started/finished, load_started/
finished) before dispatch. Pattern proven across Phases 12/13/14/15/16.

Entity to_dict/from_dict + class_id tagging (Agent A):
- class_id tag added to all 18 entity to_dict methods for loader routing
- Missing pairs filled in: wolf, grave_slot, graveyard_zone, stockpile_zone,
  crate (from_dict). All defensive with d.get(field, default).
- Workbench round-trips label_text so Carpenter/Smelter/Millstone/Hearth/
  Pyre kinds survive reload
- BeautySystem + DirtinessSystem save_dict/apply_dict for sparse maps
- World.save_tilemap_layers / apply_tilemap_layers covering 5 layers
  (Terrain/Floor/Wall/Designation/Roof; Fog runtime-only skipped)

SaveSystem v2 rewrite (Agent B):
- SAVE_VERSION bumped from 1 to 2
- write_save(slot) pauses Sim, emits save_started, collects every entity
  via _collect_entities iterating all World registries, writes payload to
  user://save_<slot>.json
- apply_save full rewrite: pause sim → emit load_started → World.clear_all
  → apply autoloads (GameState/Clock/Weather/Storyteller) → apply tilemap
  layers → iterate payload.entities and dispatch to per-class factories
  → apply beauty/dirt maps → emit load_finished(slot, ok, real_seconds_away)
- Per-class factory registry: 18 class_ids dispatched to setup+add_child+
  from_dict patterns. CremationPyre detected via workbench.label_text == 'Pyre'
- Public slot API: save_to_slot/load_from_slot/has_save/delete_save/
  peek_save_metadata. Slots locked: &manual + &autosave

Autosave + UI + Resume toast (Agent C):
- autoload/autosave.gd — new Autosave autoload. Periodic every
  AUTOSAVE_INTERVAL_TICKS = 6000 (~5 in-game min at 20 Hz) + NOTIFICATION_
  APPLICATION_PAUSED (mobile) + NOTIFICATION_WM_WINDOW_FOCUS_OUT (desktop).
  Gated by _busy flag tied to EventBus.save_started/save_finished.
- TopBar extended with SaveBtn (💾) + LoadBtn buttons, 48×48 min hit area
- scenes/ui/load_menu.gd — CanvasLayer slot picker. Reads peek_save_metadata
  to show 'Manual save (Date Time)' / 'Autosave (Date Time)' rows.
  Version-mismatch warning dialog before continuing on older saves.
- scenes/ui/resume_toast.gd — top-center toast. On load_finished(ok=true):
  'Welcome back — N minutes/hours away' for 5s + 0.8s fade.
  On ok=false: 'Load failed (corrupt or version mismatch)'.
- Strings catalog: 14 new keys (ui.save / ui.load / ui.welcome_back_* /
  ui.load_failed etc.)
- main.gd mounts LoadMenu + ResumeToast as runtime CanvasLayer children

MCP runtime verified:
- Saved at tick 1137 → [save] wrote slot 'manual': 113 entities at tick 1137
- Advanced sim to tick 4600 at ULTRA speed (different state)
- load_from_slot(&manual) → [save] applied slot 'manual': 113 entities,
  0 errors, tick=1137, away=34s
- post-load: Sim.tick=1137 (restored), pawns alive=3, all furniture +
  workbenches + crops + walls + floors back in place
- Resume toast fires: [resume_toast] showing — ok=true seconds_away=34
- Autosave on focus-loss verified: [autosave] focus-loss → wrote autosave
- Screenshot shows TopBar with Save + Load buttons + post-load Lone Wolf
  storyteller modal from fresh dawn roll

Known acceptable gaps (deferred to Phase 20 tuning):
- Pawn JobRunner mid-INTERACT/mid-BUILD restarts from toil 0 on reload
  (walk toil round-trips; multi-step interact does not). Pawns lose a few
  seconds of work.
- Workbench bill mid-craft fetch state isn't fully serialized.
- Wolf.target_pawn re-resolution from name string is Agent A's documented
  pattern; Agent B's apply_save respects pawn-restoration ordering so the
  resolution works after pawns are back.

Delegation: 3× gdscript-refactor (Sonnet) agents in parallel; integration
+ MCP verify on Opus.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-05-11 19:24:59 +01:00

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class_name Workbench extends Node2D
## Workbench entity — buildable structure where pawns craft items per bills.
##
## Rendered as a bottom-anchored sprite (Y-sorted) matching the 3/4-perspective
## convention from Wall/Door. Ghost state (40% alpha) while construction is
## in progress; solid once _completed.
##
## Variant appearance is driven by label_text:
## "Carpenter" → warm-brown wood bench with a vise detail
## "Smelter" → dark grey stone block with an orange ember glow
## Other → generic warm-grey fallback
##
## Bill model (architecture.md "Production: workbenches, recipes, bills"):
## bills[] — ordered queue of Bill objects (untyped; Bill class
## is authored by a sibling agent and may not be
## registered when this file compiles).
## current_bill — the Bill actively being worked; null when idle.
## current_work_progress — tick counter within the current craft cycle.
## JobRunner._tick_craft increments this each sim tick.
## Workbench resets it to 0 on cycle completion or
## when the pawn leaves mid-craft.
##
## Save/load: to_dict / from_dict capture all persistent fields, including
## each bill via bill.to_dict(). Mirrors the Crate save pattern.
##
## World registration: World.register_workbench / World.unregister_workbench
## are called from _ready / _exit_tree.
const TILE_SIZE_PX: int = 16
## Sim ticks to build a workbench (90 ticks ≈ 4.5 sim seconds at 1×).
const BUILD_TICKS: int = 90
# ── Phase 11: light-source support ───────────────────────────────────────────
## Workbenches whose label_text is in this list emit light when completed.
## Currently only the Hearth (open-fire cooking) qualifies.
const LIGHT_EMITTING_LABELS: Array[String] = ["Hearth"]
## Sim-side Manhattan-distance light radius for the Hearth (tiles). Max 8.
const HEARTH_LIGHT_RADIUS: int = 5
## Pixel size of the procedural radial gradient used for PointLight2D.
const LIGHT_TEXTURE_SIZE: int = 64
# ── exports ───────────────────────────────────────────────────────────────────
## Tile position of this workbench in world-tile coordinates.
@export var tile: Vector2i = Vector2i.ZERO
## Player-visible label. Also drives the _draw() variant.
## Recognised values: "Carpenter", "Smelter", "Hearth", "Millstone". Others render generic.
@export var label_text: String = "Workbench"
## Which skill category this bench accepts.
## CraftingProvider filters by this before assigning a pawn.
@export var accepted_skill: StringName = &"crafting"
# ── state ─────────────────────────────────────────────────────────────────────
## Ticks of construction work applied so far. 0..BUILD_TICKS.
var build_progress: int = 0
## True once build_progress >= BUILD_TICKS.
var _completed: bool = false
## Ordered queue of Bill objects. Untyped so this file compiles before the
## Bill class is registered by the sibling agent. CraftingProvider reads this.
var bills: Array = []
## The Bill being actively worked right now. null when idle.
## Set by JobRunner when it begins a craft toil; cleared on completion or
## when the pawn walks away (job cancelled / interrupted).
var current_bill = null
## Sim-tick progress within the current craft cycle. Incremented by
## JobRunner._tick_craft once per sim tick. Reset to 0:
## - when a craft completes (on_craft_complete)
## - when no pawn is actively crafting (JobRunner cancel / pawn interruption)
## JobRunner reads this to decide whether the recipe's work_ticks are done.
var current_work_progress: int = 0
## PointLight2D child for workbenches that emit light (Hearth). null for all
## others. Built in _ready() when label_text is in LIGHT_EMITTING_LABELS;
## enabled only after _complete() fires.
var _light: PointLight2D = null
# ── lifecycle ─────────────────────────────────────────────────────────────────
func _ready() -> void:
# Position is bottom-anchored so Y-sort occludes pawns correctly.
position = Vector2(
tile.x * TILE_SIZE_PX + TILE_SIZE_PX / 2.0,
tile.y * TILE_SIZE_PX + TILE_SIZE_PX
)
World.register_workbench(self)
# Phase 11: light-emitting workbenches register with the light-source registry.
# All workbenches register; non-emitters return false from is_on() so
# World.is_tile_lit() skips them at zero cost.
World.register_light_source(self)
if label_text in LIGHT_EMITTING_LABELS:
_light = _build_point_light_2d()
add_child(_light)
_light.enabled = false # dark until built
queue_redraw()
func _exit_tree() -> void:
World.unregister_workbench(self)
World.unregister_light_source(self)
## One-shot initialiser. Call after add_child() so _ready() has fired.
func setup(p_tile: Vector2i) -> void:
tile = p_tile
position = Vector2(
tile.x * TILE_SIZE_PX + TILE_SIZE_PX / 2.0,
tile.y * TILE_SIZE_PX + TILE_SIZE_PX
)
queue_redraw()
# ── BuildJob interface ────────────────────────────────────────────────────────
## True while the workbench still needs construction work.
## JobRunner's BUILD toil checks this to decide when the toil is done.
func is_buildable() -> bool:
return not _completed
## Human-readable label for job descriptions and Audit logs.
func label() -> String:
return label_text
## Called by the BUILD toil in JobRunner once per sim tick.
## Advances build_progress; completes the workbench at BUILD_TICKS.
func on_build_tick() -> void:
if _completed:
return
build_progress += 1
queue_redraw()
if build_progress >= BUILD_TICKS:
_complete()
## True once the workbench has been fully built.
func is_completed() -> bool:
return _completed
# ── Bills ─────────────────────────────────────────────────────────────────────
## Append a bill to the queue.
func add_bill(b) -> void:
bills.append(b)
Audit.log("workbench", "%s: bill added — recipe '%s'" % [label_text, b.recipe.id])
## Return the first bill that is active and whose required_skill matches
## this bench's accepted_skill. Returns null when none qualify.
## CraftingProvider calls this; JobRunner also calls it when the current_bill
## becomes inactive (UNTIL_N threshold reached, paused, etc.).
func find_active_bill():
for b in bills:
if not b.is_active():
continue
if b.recipe.required_skill != accepted_skill:
continue
return b
return null
# ── Craft-cycle hooks (called by JobRunner) ───────────────────────────────────
## JobRunner calls this when it starts working a bill on this bench.
## Stores the active bill and resets the tick counter.
func begin_craft(b) -> void:
current_bill = b
current_work_progress = 0
## JobRunner calls this once per sim tick while a pawn is actively crafting.
## Returns true when the recipe's work_ticks have been reached (craft done).
func tick_craft() -> bool:
if current_bill == null:
return false
current_work_progress += 1
return current_work_progress >= current_bill.recipe.work_ticks
## JobRunner calls this on craft completion before spawning the output item.
## Records the completion on the bill, resets state.
func on_craft_complete() -> void:
if current_bill != null:
current_bill.record_completion()
current_bill = null
current_work_progress = 0
## JobRunner calls this when the craft is interrupted (pawn leaves, cancel, etc.).
## Resets in-progress state so another pawn can start fresh.
func on_craft_interrupted() -> void:
current_bill = null
current_work_progress = 0
# ── Phase 11: light-source duck-type interface ────────────────────────────────
## Shared by Torch. World.is_tile_lit() and the "in darkness" thought call these.
## True when this workbench emits light and has finished construction.
## Non-emitting workbenches (Carpenter, Smelter, Millstone) always return false.
func is_on() -> bool:
return _completed and label_text in LIGHT_EMITTING_LABELS
## The tile this light source occupies (for Manhattan-distance calculation).
func get_light_tile() -> Vector2i:
return tile
## The sim-side Manhattan-distance radius of this light source.
## Returns 0 for non-emitting workbenches; World.is_tile_lit() still calls this
## but d <= 0 is never true for a non-adjacent tile so it's a no-op in practice.
func get_light_radius() -> int:
if label_text in LIGHT_EMITTING_LABELS:
return HEARTH_LIGHT_RADIUS
return 0
# ── save / load ───────────────────────────────────────────────────────────────
## Serialise workbench state for World save (wired in Phase 16).
func to_dict() -> Dictionary:
var bills_data: Array = []
for b in bills:
bills_data.append(b.to_dict())
return {
"class_id": &"workbench",
"tile_x": tile.x,
"tile_y": tile.y,
"label_text": label_text,
"accepted_skill": String(accepted_skill),
"build_progress": build_progress,
"completed": _completed,
"current_work_progress": current_work_progress,
"bills": bills_data,
}
## Restore from a dict produced by to_dict().
## Bill objects are reconstructed by the caller using Bill.from_dict() once the
## Bill class is registered. current_bill is left null — JobRunner reconnects
## from its own saved state on the next sim tick.
func from_dict(d: Dictionary) -> void:
tile = Vector2i(int(d.get("tile_x", 0)), int(d.get("tile_y", 0)))
label_text = str(d.get("label_text", "Workbench"))
accepted_skill = StringName(d.get("accepted_skill", "crafting"))
build_progress = int(d.get("build_progress", 0))
_completed = bool(d.get("completed", false))
current_work_progress = int(d.get("current_work_progress", 0))
# Bills are re-populated by World.load_workbenches() after Bill class loads.
# Raw dicts are kept in the dict; the caller handles reconstruction.
setup(tile)
# ── render ─────────────────────────────────────────────────────────────────────
func _draw() -> void:
# 3/4-perspective bench rendering — fits within the tile (16×16 local box).
# Origin (0,0) = tile bottom-centre. Tile spans local Y: -16 to 0.
# Two-band look (matches Wall): lit top band + shaded front face.
# Ghost (not yet built) draws at 0.4 alpha.
var alpha: float = 1.0 if _completed else 0.4
match label_text:
"Carpenter":
_draw_carpenter(alpha)
"Smelter":
_draw_smelter(alpha)
"Hearth":
_draw_hearth(alpha)
"Millstone":
_draw_millstone(alpha)
_:
_draw_generic(alpha)
func _draw_carpenter(alpha: float) -> void:
# Warm-brown wood bench. Top band lit, front face darker.
# Vise/saw detail: a small darker square at the top-right corner of the
# front face to suggest a mounted tool.
var top_face := Color(0.62, 0.45, 0.25, alpha)
var front_face := Color(0.52, 0.36, 0.18, alpha)
var plank := Color(0.34, 0.22, 0.10, alpha)
var vise := Color(0.28, 0.18, 0.08, alpha)
var outline := Color(0.20, 0.12, 0.04, 0.7 * alpha)
# Top face — lit strip at upper-third of tile.
draw_rect(Rect2(Vector2(-8.0, -16.0), Vector2(16.0, 5.0)), top_face)
# Front face — lower body.
draw_rect(Rect2(Vector2(-8.0, -11.0), Vector2(16.0, 11.0)), front_face)
# Horizontal plank seam across the front face.
draw_line(Vector2(-8.0, -6.0), Vector2(8.0, -6.0), plank, 1.0)
# Vise detail: 4×4 px darker square at top-right of front face.
draw_rect(Rect2(Vector2(3.0, -11.0), Vector2(4.0, 4.0)), vise)
# Top/front edge horizon line.
draw_line(Vector2(-8.0, -11.0), Vector2(8.0, -11.0), plank, 1.0)
# Tile outline.
draw_rect(Rect2(Vector2(-8.0, -16.0), Vector2(16.0, 16.0)), outline, false, 1.0)
func _draw_smelter(alpha: float) -> void:
# Dark grey stone block. Top band slightly lighter.
# Ember glow: orange rect centred at the bottom of the front face.
var top_face := Color(0.42, 0.42, 0.40, alpha)
var front_face := Color(0.32, 0.32, 0.30, alpha)
var mortar := Color(0.20, 0.20, 0.18, alpha)
var ember := Color(0.95, 0.45, 0.10, alpha)
var outline := Color(0.14, 0.14, 0.12, 0.7 * alpha)
# Top face.
draw_rect(Rect2(Vector2(-8.0, -16.0), Vector2(16.0, 5.0)), top_face)
# Front face.
draw_rect(Rect2(Vector2(-8.0, -11.0), Vector2(16.0, 11.0)), front_face)
# Mortar line.
draw_line(Vector2(-8.0, -6.0), Vector2(8.0, -6.0), mortar, 1.0)
# Ember glow: 6×3 px orange rect, horizontally centred, at bottom of front face.
draw_rect(Rect2(Vector2(-3.0, -3.0), Vector2(6.0, 3.0)), ember)
# Top/front edge horizon line.
draw_line(Vector2(-8.0, -11.0), Vector2(8.0, -11.0), mortar, 1.0)
# Tile outline.
draw_rect(Rect2(Vector2(-8.0, -16.0), Vector2(16.0, 16.0)), outline, false, 1.0)
func _draw_hearth(alpha: float) -> void:
# Dark grey stone block with a large orange flame at centre of front face and
# a thin smoke wisp poking above the top face. Visually heavier than the
# Smelter (which has a small ember) to signal open-fire cooking.
var top_face := Color(0.35, 0.30, 0.25, alpha)
var front_face := Color(0.28, 0.24, 0.20, alpha)
var mortar := Color(0.18, 0.14, 0.12, alpha)
var flame := Color(0.95, 0.55, 0.10, alpha)
var smoke := Color(0.72, 0.70, 0.68, alpha * 0.6)
var outline := Color(0.14, 0.10, 0.08, 0.7 * alpha)
# Top face.
draw_rect(Rect2(Vector2(-8.0, -16.0), Vector2(16.0, 5.0)), top_face)
# Front face.
draw_rect(Rect2(Vector2(-8.0, -11.0), Vector2(16.0, 11.0)), front_face)
# Mortar seam.
draw_line(Vector2(-8.0, -6.0), Vector2(8.0, -6.0), mortar, 1.0)
# Flame: 6×4 px orange rect, horizontally centred in the front face.
draw_rect(Rect2(Vector2(-3.0, -8.0), Vector2(6.0, 4.0)), flame)
# Smoke wisp: 1×2 px vertical light-grey rect rising above the top face.
draw_rect(Rect2(Vector2(-0.5, -18.0), Vector2(1.0, 2.0)), smoke)
# Top/front edge horizon line.
draw_line(Vector2(-8.0, -11.0), Vector2(8.0, -11.0), mortar, 1.0)
# Tile outline.
draw_rect(Rect2(Vector2(-8.0, -16.0), Vector2(16.0, 16.0)), outline, false, 1.0)
func _draw_millstone(alpha: float) -> void:
# Very light grey stone block with a circular dark-grey stone wheel inset
# at the centre of the front face. Suggests a grinding wheel.
var top_face := Color(0.78, 0.78, 0.72, alpha)
var front_face := Color(0.65, 0.65, 0.60, alpha)
var seam := Color(0.45, 0.45, 0.42, alpha)
var wheel := Color(0.40, 0.40, 0.36, alpha)
var outline := Color(0.28, 0.28, 0.26, 0.7 * alpha)
# Top face.
draw_rect(Rect2(Vector2(-8.0, -16.0), Vector2(16.0, 5.0)), top_face)
# Front face.
draw_rect(Rect2(Vector2(-8.0, -11.0), Vector2(16.0, 11.0)), front_face)
# Seam.
draw_line(Vector2(-8.0, -6.0), Vector2(8.0, -6.0), seam, 1.0)
# Stone wheel: filled circle radius 5 px, centred on the front face.
draw_circle(Vector2(0.0, -5.5), 5.0, wheel)
# Top/front edge horizon line.
draw_line(Vector2(-8.0, -11.0), Vector2(8.0, -11.0), seam, 1.0)
# Tile outline.
draw_rect(Rect2(Vector2(-8.0, -16.0), Vector2(16.0, 16.0)), outline, false, 1.0)
func _draw_generic(alpha: float) -> void:
# Warm-grey fallback bench. Simple two-band block with a single seam.
var top_face := Color(0.58, 0.55, 0.50, alpha)
var front_face := Color(0.42, 0.40, 0.36, alpha)
var seam := Color(0.30, 0.28, 0.25, alpha)
var outline := Color(0.20, 0.18, 0.16, 0.7 * alpha)
draw_rect(Rect2(Vector2(-8.0, -16.0), Vector2(16.0, 5.0)), top_face)
draw_rect(Rect2(Vector2(-8.0, -11.0), Vector2(16.0, 11.0)), front_face)
draw_line(Vector2(-8.0, -6.0), Vector2(8.0, -6.0), seam, 1.0)
draw_line(Vector2(-8.0, -11.0), Vector2(8.0, -11.0), seam, 1.0)
draw_rect(Rect2(Vector2(-8.0, -16.0), Vector2(16.0, 16.0)), outline, false, 1.0)
# ── internal ──────────────────────────────────────────────────────────────────
func _complete() -> void:
_completed = true
# Phase 11: enable PointLight2D for light-emitting workbenches on completion.
if _light != null:
_light.enabled = is_on()
queue_redraw()
Audit.log("workbench", "%s built at %s" % [label_text, tile])
# Phase 13 — notify BeautySystem so nearby tile beauty scores update.
# Hearth gets base beauty 4 (warm glow); other benches get 1.
# Beauty lookup key is label_text ("Hearth", "Carpenter", etc.).
var bs = World.get("beauty_system")
if bs != null:
bs.register_furniture(self)
bs.recompute_around(tile)
# ── Phase 11: internal light helpers ─────────────────────────────────────────
## Construct and return the PointLight2D that provides Godot-side visual lighting.
## Mirrors Torch._build_point_light_2d(). Duplicated here to avoid a cross-file
## dependency; the ~20 lines of duplication is the lesser cost.
func _build_point_light_2d() -> PointLight2D:
var p := PointLight2D.new()
p.texture = _build_radial_light_texture(LIGHT_TEXTURE_SIZE)
# Scale so the texture radius covers HEARTH_LIGHT_RADIUS tiles in world-pixels.
p.texture_scale = float(HEARTH_LIGHT_RADIUS) * float(TILE_SIZE_PX) / float(LIGHT_TEXTURE_SIZE) * 2.0
p.color = Color(1.0, 0.80, 0.50, 1.0) # warm hearthfire tint, slightly redder than torch
p.energy = 1.0
# Offset upward so the light originates from the flame area, not the tile base.
p.position = Vector2(0.0, -10.0)
return p
## Build a soft radial gradient Image and return it as an ImageTexture.
## White centre fades to transparent at the edge via smoothstep falloff.
static func _build_radial_light_texture(size: int) -> Texture2D:
var img := Image.create(size, size, false, Image.FORMAT_RGBA8)
var cx: float = float(size) / 2.0
var cy: float = float(size) / 2.0
var max_r: float = float(size) / 2.0
for x in size:
for y in size:
var dx: float = float(x) - cx
var dy: float = float(y) - cy
var d: float = sqrt(dx * dx + dy * dy)
var t: float = clampf(1.0 - d / max_r, 0.0, 1.0)
var a: float = t * t * (3.0 - 2.0 * t)
img.set_pixel(x, y, Color(1.0, 1.0, 1.0, a))
return ImageTexture.create_from_image(img)
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