User chose fundamentals-first after M1 landed: indoor walking is
untested (M1 only verified outdoor + doorway), indoor lighting is
broken, camera clips into walls indoors. Better to fix indoor
foundations before stacking combat on top.
Three sub-phases proposed for the new M2:
1. Camera correctness (~1 day)
2. Indoor collision audit (~1 week)
3. Indoor lighting basics (~1-2 weeks)
Combat ("Kill a drudge") slides to M3.
Next session opens with superpowers:brainstorming to scope the
demo scenario + agree on sub-phase boundaries + update the
milestones doc + CLAUDE.md to formalize the reorder.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Captures M1 landing, Phase B.6 architectural details, new rules
(no-workarounds, no-demo-videos, graceful-shutdown), M2 next steps,
and test baselines for fresh-session pickup.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
M1 "Walkable + clickable world" landed 2026-05-16 with Phase B.6
(d640ed7). All four demo targets work end-to-end retail-faithfully:
walk Holtburg, open inn door, click NPC, pick up item.
Freeze list applied: L.2 (collision), B.4 (interaction outbound),
B.5 (pickup) — these phases are off-limits until M7 polish unless
something is actively broken.
CLAUDE.md "currently working toward" advanced to M2 — "Kill a drudge."
Phases to ship: F.2 (Inventory panel), F.3 (Combat math + damage),
F.5a (dev panels Attributes/Skills/Equipped/Inventory), L.1c
(combat animation wiring), L.1b (command router prereq).
Also removes the "record a demo video" requirement from milestone
discipline (CLAUDE.md rule #3 + milestones doc operating rule #3) —
user finds video recording pointless. Milestones are now textual
events: writeup + freeze flip + CLAUDE.md "currently working toward"
update. Saved as feedback memory.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Closes#63, #69, #74, #75. Replaces the chain of Commit-B workarounds
that compensated for ACE's MoveToChain getting cancelled by a leaked
user-MoveToState packet during inbound auto-walk. The fix is
architectural — auto-walk drives the body directly from the
server-supplied path data, no player-input synthesis, no spurious
wire-packet transitions, no grace-period band-aid.
Architectural change (closes#75):
PlayerMovementController.ApplyAutoWalkOverlay → DriveServerAutoWalk.
- Steps Yaw toward target at retail-faithful turn rates.
- Computes desired forward velocity from path runRate.
- Calls _motion.DoMotion(WalkForward, speed) directly for the
motion-interpreter state (drives animation cycle).
- Sets _body.set_local_velocity directly when grounded.
- Returns true to gate the user-input motion + velocity section
in Update so user-input flow doesn't overwrite auto-walk
velocity or motion state.
Mirrors retail's MovementManager::PerformMovement case 6 (decomp
0x00524440) which never touches the user-input pipeline during
server-controlled auto-walk.
Wire-layer guard at GameWindow.cs:6419 retained as a SEMANTIC
statement (`if (result.MotionStateChanged && !IsServerAutoWalking)`):
user-MoveToState packets are for user-driven motion intent. During
server-controlled auto-walk, the motion-state transitions caused by
the animation override (RunForward / WalkForward / TurnLeft /
TurnRight cycles) must not leak as user-cancellation packets. This
is NOT the deleted 500ms grace-period band-aid; it's the wire-layer
expressing the user-vs-server motion split.
Animation plumbed for auto-walk phases (closes#69):
- Moving forward → WalkForward (speed=1.0) / RunForward (speed=runRate)
- Turn-first phase → TurnLeft / TurnRight (sign of yawStep)
- Aligned-but-pre-step / arrival → no override (idle)
Driven via _autoWalkMovingForwardThisFrame + _autoWalkTurnDirectionThisFrame
fields set in DriveServerAutoWalk and read in the MovementResult
construction at the bottom of Update. UpdatePlayerAnimation picks up
the localAnimCmd as the highest-priority animation source.
Walk/run threshold = 1.0m, retail-observed. ACE's wire-default of
15.0f is too generous; ACE's own physics layer uses 1.0f at
MovementParameters.cs:50 (with the 15.0f line commented out) and
Creature.cs:312 notes "default 15 distance seems too far". The
formula matches retail's MovementParameters::get_command at decomp
0x0052aa00: running = (initialDist - distance_to_object) >=
threshold, evaluated ONCE at chain start and held for the rest of
the auto-walk (matches retail "runs all the way / walks all the way"
behaviour). Wire-supplied threshold is ignored.
Pickup gate (IsPickupableTarget) now uses BF_STUCK
(acclient.h:6435, bit 0x4) to discriminate immovable scenery from
real pickup items that share a Misc ItemType. Sign (pwd=0x14 with
BF_STUCK) → blocked; spell component (pwd=0x10, no BF_STUCK) →
allowed. ACE's PutItemInContainer (Player_Inventory.cs:831-836)
responds with WeenieError.Stuck (0x29) on stuck items so the gate
prevents wasted wire packets + a UX dead-end.
R-key dispatch by target type. UseCurrentSelection's top-level
IsUseableTarget gate was wrong (blocked USEABLE_NO=1 items that
ARE pickupable). Reordered:
1. Creature → SendUse
2. Pickupable → SendPickUp
3. Useable → SendUse
4. Otherwise → "cannot be used" toast
Each handler keeps its own gate. Matches retail's per-action
server-side validation.
AP cadence revert (closes#74). With the MoveToChain race fixed,
the per-frame "send while moving" cadence is no longer load-bearing.
Reverted to retail's two-branch ShouldSendPositionEvent gate
(acclient_2013_pseudo_c.txt:700233-700285):
Interval NOT elapsed (< 1 sec): send if cell or contact-plane changed.
Interval elapsed (>= 1 sec): send if cell or position frame changed.
Adds _lastSentContactPlane field + ApproxPlaneEqual helper +
PlayerMovementController.ContactPlane public accessor. Extended
NotePositionSent(Vector3, uint, Plane, float) — both outbound sites
(MoveToState + AP) pass _playerController.ContactPlane.
Effective rates: 0 Hz idle, ~1 Hz smooth motion, per-event on
cell/plane changes, 0 Hz airborne.
CLAUDE.md updated with no-workarounds rule (commit `da126f9` on
the worktree branch). Saved as feedback memory at
memory/feedback_no_workarounds.md.
Tests: build green; Core.Net 294/294; Core 1073/1081 (baseline,
8 pre-existing Physics failures unchanged). Visual-verified
end-to-end on 2026-05-16 for far/near Use + PickUp on NPCs,
doors, items, spell components, signs (correctly blocked), corpses,
turn-first animation, run/walk thresholds, idle quiet, smooth-
motion 1Hz.
Spec: docs/superpowers/specs/2026-05-16-phase-b6-suppress-movetostate-during-inbound-autowalk-design.md
Plan: docs/superpowers/plans/2026-05-16-phase-b6-suppress-movetostate-during-inbound-autowalk.md
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Retires divergences flagged in the 2026-05-16 faithfulness audit:
1. AP cadence. Replaces the 1 Hz idle / 10 Hz active flat heartbeat
with a diff-driven model gated on `Contact && OnWalkable`
(acclient_2013_pseudo_c.txt:700327 SendPositionEvent). Sends on
position or cell change while grounded on walkable, plus a 1 sec
heartbeat; suppressed entirely airborne. PlayerMovementController
exposes `NotePositionSent(pos, cellId, now)` which GameWindow stamps
after each AutonomousPosition / MoveToState send — mirrors retail's
shared `last_sent_position_time` between SendPositionEvent
(0x006b4770) and SendMovementEvent (0x006b4680). Known divergence
from retail: ours is per-frame-while-moving, retail's effective rate
is ~1 Hz during smooth motion (cell/plane checks). Filed as #74,
blocked by #63 — when #63 lands we revert to retail's narrower gate.
2. Workaround retirement. Removes TinyMargin (0.05 m inside arrival)
and the AP-flush before re-send (`SendAutonomousPositionNow`). The
diff-driven cadence makes both obsolete. Close-range turn-first
deferred Use is kept (it IS retail — ACE Player_Move.cs:66-87
mirrors retail's CreateMoveToChain pre-callback rotation), renamed
`OnAutoWalkArrivedSendDeferredAction` to clarify it's a FIRST send.
`isRetryAfterArrival` parameter dropped.
3. Far-range Use/PickUp retry. Restored — was load-bearing, not the
"redundant cleanup" the Group 2 audit thought. Issue #63 means ACE
drops the first Use as too-far without re-polling on subsequent APs;
the arrival re-send is what makes far-range Use complete. Logs
include `(queued for arrival re-send pending #63)` to make this
explicit. Removes when #63 closes.
4. Screen-rect picker. New `AcDream.Core.Selection.ScreenProjection`
helper shared by `WorldPicker` and `TargetIndicatorPanel`. The
`Setup.SelectionSphere` projects to a screen-space square (retail
anchor `SmartBox::GetObjectBoundingBox` 0x00452e20); picker
hit-tests the mouse pixel against the same rect the indicator draws,
inflated by 8 px (`TriangleSize`). Guarantees what-you-see is
what-you-click — including rect corners that were dead zones under
the old ray-sphere picker. Per-type radius (1.0/1.6/2.0 m) and
vertical-offset (0.2/0.9/1.0/1.5 m) heuristic lambdas retired;
`IsTallSceneryGuid` deleted; `EntityHeightFor` trimmed to 1.5 m × scale
defensive default. No defensive sphere synth — entities without a
baked `SelectionSphere` are skipped, matching retail's
`GfxObjUnderSelectionRay` (0x0054c740).
5. Rotation rate run multiplier (Commit A precursor). `TurnRateFor(running)`
helper applies retail's `run_turn_factor = 1.5f` (PDB-named
0x007c8914) under HoldKey.Run, matching `apply_run_to_command` at
0x00527be0 (line 305098). Effective: walking ≈ 90°/s, running ≈ 135°/s.
Keyboard A/D + ApplyAutoWalkOverlay both use it.
6. Useability gate (Commit A precursor). `IsUseableTarget` corrected to
`useability != 0` per `ItemUses::IsUseable` at 256455 — ANY non-zero
passes (USEABLE_NO=1, USEABLE_CONTAINED=8, etc.), not just the
USEABLE_REMOTE bit. Cross-checked against 4 call sites in retail
(ItemHolder::UseObject 0x00588a80, DetermineUseResult 0x402697,
UsingItem 0x367638, disable-button-state 0x198826). Added
`ProbeUseabilityFallbackEnabled` diagnostic
(`ACDREAM_PROBE_USEABILITY_FALLBACK=1`) to measure how often the
creature/BF_DOOR fallback fires for ACE-seed-DB entities with
null useability.
CLAUDE.md updated with the graceful-shutdown rule for relaunch:
Stop-Process bypasses the logout packet, leaving ACE's session marked
logged-in for ~3+ min. CloseMainWindow() sends WM_CLOSE so the
shutdown hook runs and the logout packet reaches ACE.
Tests: +3 ScreenProjectionTests + 6 WorldPickerRectOverloadTests = +9.
Core.Net 294/294 pass; Core 1073/1081 (8 pre-existing Physics failures
unchanged). Visual-verified 2026-05-16: rotation rate, useability,
screen-rect click area, double-click + R-key + F-key Use/PickUp at
short and long range — dialogue/door/pickup fire on arrival.
Filed follow-ups #70 (triangle apex/size DAT sprite), #71 (picker
Stage B polygon refine), #72 (cdb omega.z probe), #73 (retail-message
sweep pattern), #74 (per-frame AP chattier than retail — blocked by
#63). Old ray-sphere `WorldPicker.Pick(origin, direction, ...)`
overload kept for back-compat; no callers in acdream proper.
Plan: docs/superpowers/plans/2026-05-16-retail-faithfulness-fixes.md
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Two retail divergences fixed from the 2026-05-16 faithfulness audit
(Commit A of the plan at docs/superpowers/plans/2026-05-16-retail-faithfulness-fixes.md).
1. Rotation rate ignored HoldKey.Run. Retail's CMotionInterp::
apply_run_to_command (decomp 0x00527be0 line 305098) multiplies
turn_speed by run_turn_factor (1.5, PDB-named symbol at 0x007c8914)
when input is TurnRight/TurnLeft under HoldKey.Run. Effective
running rotation is 50% faster (~135°/s vs walking ~90°/s).
Our keyboard A/D and ApplyAutoWalkOverlay used a fixed walking
rate.
New: RemoteMoveToDriver.TurnRateFor(running) helper. Keyboard
path passes input.Run; auto-walk overlay passes
_autoWalkInitiallyRunning. The walking-rate base
(BaseTurnRateRadPerSec = π/2) is unchanged; TurnRateRadPerSec
constant is preserved as the walking-rate alias for callers
that don't have run/walk state (NPC remotes).
2. IsUseableTarget gated on `useability & USEABLE_REMOTE (0x20)`,
which was stricter than retail. Per ItemUses::IsUseable
(acclient_2013_pseudo_c.txt:256455) cross-referenced with 4
call sites, retail's IsUseable() semantic is `_useability != 0`.
But visually retail's USEABLE_NO (1) entities don't approach
either, because ACE never broadcasts MovementType=6 for them.
Our client installs a speculative auto-walk BEFORE the server
responds, so we'd visibly approach + face signs before the
wire packet was rejected.
Pragmatic fix: block USEABLE_UNDEF (0) AND USEABLE_NO (1) in
IsUseableTarget — slightly stricter than retail's
IsUseable but matches retail's user-visible behaviour
("R on sign does nothing"). Documented in the doc-comment so
a future implementer knows the gap.
3. New IsPickupableTarget gate for F-key path — requires
USEABLE_REMOTE (0x20) bit. Null-useability fallback for
BF_CORPSE + small-item ItemTypes (preserves M1 ground-item
pickup flow when ACE seed DB doesn't publish useability).
4. R-key (UseCurrentSelection) upfront gate now ALWAYS uses
IsUseableTarget. R is conceptually "use" with smart-routing
to pickup as a downstream optimization. F-key (SendPickUp)
uses IsPickupableTarget directly.
5. Retail toast strings on block, centralised in new
src/AcDream.Core/Ui/RetailMessages.cs:
- "The X cannot be used" (data 0x007e2a70, sprintf 0x00588ea4)
fires on UseCurrentSelection / SendUse gate block.
- "The X can't be picked up!" (sprintf 0x00587353) fires on
SendPickUp non-pickupable block.
- "You cannot pick up creatures!" (data 0x007e22b4) fires on
SendPickUp creature block (was previously silent).
- Plus 4 inactive retail strings ready for future call sites:
CannotBeUsedWith (two-target Use), CannotBePickedUp (formal
pickup variant), CannotBeUsedWhileOnHook_HooksOff +
CannotBeUsedWhileOnHook_NotOwner (housing). All cite their
retail data addresses + runtime sprintf addresses.
6. ProbeUseabilityFallbackEnabled diagnostic (env var
ACDREAM_PROBE_USEABILITY_FALLBACK=1) logs every time the
null-useability fallback fires. Settles whether the
fallback for creature + BF_DOOR/LIFESTONE/PORTAL/CORPSE
entries in ACE's seed DB without useability is hot code
or theoretical defense.
Test coverage:
- +3 RemoteMoveToDriverTests cover TurnRateFor walking/running/back-compat.
- +7 RetailMessagesTests cover each retail string with retail anchor.
- +1 CreateObjectTests TryParse_WeenieFlagsUsable_ReadsUseableNoValue
pins parser correctness for USEABLE_NO=1.
- 294/294 Core.Net pass; 24/24 new+touched Core tests pass.
- Pre-existing baseline of 8 Physics test failures unchanged
(BSPStepUp + MotionInterpreter regression noise from prior
sessions; out of scope here).
Deferred to a separate session per user direction:
- Click area = indicator-rect retail fidelity. Retail's picker
uses per-part CGfxObj.drawing_sphere + polygon refine
(0x0054c740); ours uses single Setup.SelectionSphere ray-
intersect. The rect corners are dead zones today. Three fix
options analyzed: screen-space rectangle hit-test, sqrt(2)
sphere inflation, polygon refine Stage B.
Plan: docs/superpowers/plans/2026-05-16-retail-faithfulness-fixes.md
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
User report: 'You should be face to face with the NPC before sending
use. So first is rotation, when you are facing, then using.' and
'it does not face it completely.'
Two changes:
1. Split alignment thresholds in ApplyAutoWalkOverlay:
walkAligned (30°) — gate for synthesised Forward+Run motion
during far-range approach; body walks
while finishing residual turn within 30°.
aligned (5°) — gate for arrival-fire. Final facing
before the auto-walk ends and the action
re-sends. Matches retail's tight pre-Use
rotation tolerance.
Within-arrival check still requires alignment; without alignment
the body holds in turn-only mode regardless of distance.
2. Defer wire Use/PickUp packet for CLOSE-range targets. SendUse
and SendPickUp now check IsCloseRangeTarget(guid): if the player
is already within the target's use-radius, we install the
speculative overlay, set _pendingPostArrivalAction, and RETURN
without sending the wire packet. AutoWalkArrived fires after the
local rotation completes (alignment within 5°); the existing
re-send handler then fires SendUse with isRetryAfterArrival=true,
sending the wire packet at that moment. Effect: rotate first,
THEN Use — the NPC/door/item only sees the action after the
character has turned to face it.
Far-range path unchanged: send immediately, ACE auto-walks,
arrival re-sends.
Filed #69: turn animation (leg/arm cycle while pivoting). The body
now rotates but doesn't play the TurnLeft/TurnRight cycle the user
wants to see. Separate scope — needs motion-interpreter integration.
10 Hz heartbeat (301281d) made ACE see us in-radius before its
MoveToChain timeout; user confirmed doors work now. Closing #67 — root
cause was 1 Hz position outbound on our side, not anything door-
specific. Same fix unblocked door + NPC.
Two visible refinements:
1. Turn-first gate. User report: 'when I use from far range, I should
face that object and then start moving. Now it starts running
before facing is complete.'
ApplyAutoWalkOverlay now suppresses Forward motion when the
heading delta to the target is > 30°. Body turns IN PLACE first,
then walks forward once roughly aligned. Within the 30° band the
body walks while finishing the residual turn. Matches the user-
observed retail rhythm.
2. Arrival margin shrunk 0.2 m → 0.05 m. User report: 'NPC dialogue
fires, but still a bit too close. In retail it fires from a longer
range.' With the 10 Hz heartbeat the server-side Player.Location
tracks us within ~100 ms, so the bigger safety margin is no longer
needed — only a tiny epsilon to absorb the sub-tick race between
local arrival fire and the next outbound packet.
Filed #68: remote players' running animation doesn't transition to
Ready on auto-walk arrival when observed from acdream. Separate
visual bug — server-side action completes correctly; just the cycle
on the dead-reckoned remote body doesn't flip back to idle.
Margin trim:
Previous: min(0.5, threshold * 0.4) — for 3 m NPC arrived at 2.5 m
New: min(0.2, threshold * 0.2) — for 3 m NPC arrives at 2.8 m
User feedback: 'compared to retail, it fires too close. In retail
it fires from a longer range.' Smaller margin matches that — still
safely inside ACE's strict WithinUseRadius but closer to the boundary.
Tight pickup radii (0.6 m item) now arrive at 0.48 m (was 0.36 m).
Filed issues:
#67 Door Use action doesn't complete after auto-walk arrival.
NPC dialogue fires correctly post-flush-AP+re-send, but
doors still go silent — need to investigate door-specific
state requirements in ACE's Door.ActOnUse or our wire
payload differences.
#66 Rotation: local player flips back after auto-walk arrival
(observed from retail observer); NPCs don't turn to face
the player when used. Both rooted in missing MovementType=8
TurnToObject handling. Supersedes #65 (which was local-only)
with a unified rotation-handling phase scope.
Retail-anchored design for the missing visual feedback on selection:
four corner triangles + radar-blip colour coding around the selected
entity, drawn via ImGui in screen space.
Retail evidence (named decomp):
* VividTargetIndicator::SetSelected at 0x004f5ce0
* gmRadarUI::GetBlipColor at 0x004d76f0 (Portal / Vendor / Creature /
Player / PK / PKLite / Default colours from pwd._bitfield bits +
IsCreature/IsPlayer/IsPK predicates we already parse)
* VividTargetIndicator::CopyImage at 0x004f5dd0 (tints a source
bitmap by RGBA)
MVP scope:
1. RadarBlipColors helper (Core, with unit tests)
2. TargetIndicatorPanel (App, ImGui draw via background draw list)
3. Wire to existing _selectedGuid from B.4b
4. ~200 LOC + tests
Deferred to follow-ups: off-screen edge arrow, DAT-loaded sprite (MVP
draws procedurally), mesh-tint highlight, player-option toggle, server
selection-relay.
Pairs with #59 (WorldPicker over-pick): the indicator makes the
mis-pick visible, so the user can clear + reselect even before the
underlying picker is tightened.
Captured a live ACDREAM_PROBE_AUTOWALK trace double-clicking +Je from
~3.5m. Findings folded into the spec's State at design freeze section:
1. Wire parser is correct (matches ACE MoveToObject.Write +
MoveToParameters.Write byte-for-byte).
2. ACE sends mtRun=0.00. Not a parser bug — that's the wire value.
Retail's apply_run_to_command (0x00527BE0) fell back to the
player's own rate; our Slice 2 needs the same fallback chain.
3. Player position never changed during the entire trace — current
behavior is pure no-op on the inbound MoveToObject (literally
ignored, as our code at OnLiveMotionUpdated:3289 suggests).
4. ACE does NOT broadcast UpdatePosition for the local player during
auto-walk. Definitively kills Option C — nothing to blend with.
Local body must drive itself.
The trace validates the spec's Option A path. Slice 2 implementation
can proceed without further wire-format guessing.
Grounded the design in named-retail evidence. MovementManager::Perform
Movement at 0x00524440 case 6 (decomp lines 300628-300648) shows the
retail client's local-side dispatcher for inbound MoveToObject:
unpacks the wire, sets motion_interpreter->my_run_rate, calls
CPhysicsObj::MoveToObject on the LOCAL player's physics body. Same
code path retail used for every creature chasing the player.
Conclusion: Option A (run a local driver against the player's body)
is retail-faithful. Option C (server-position-blend) is a non-retail
shortcut and is now eliminated from consideration.
Re-scoped the spec into 4 slices:
1. ACDREAM_PROBE_AUTOWALK diagnostic baseline (~30 LOC)
2. PlayerMovementController.BeginServerAutoWalk + reuse of
RemoteMoveToDriver against the local player's body (~100 LOC)
3. Animation cycle selection during auto-walk (~20 LOC)
4. Local pickup-animation echo (closes#64, ~10 LOC)
Total ~160 LOC, no new files. All existing acdream infrastructure
(RemoteMoveToDriver, ServerControlledLocomotion, MotionState.MoveTo
Path parsing) is reused; the work is wiring it for _playerServerGuid
in addition to remote guids.
Captures the wire-format facts that are already parsed (MotionState.
IsServerControlledMoveTo + MoveToPath fields), the two gating sites
that drop the inbound MoveToObject for the local player today, and a
three-option solution space (run remote-driver locally, visual tween,
server-position-authoritative blend).
Recommendation: Option C first (smallest blast radius, single-commit
hotfix if ACE's UpdatePosition broadcast cadence is adequate); promote
to Option A only if the trace shows server broadcasts are too sparse
to render smoothly.
Explicitly does NOT implement yet. The 'walks then snaps back' visible
symptom is observed but the mechanism isn't characterized in detail —
the spec calls for a diagnostic-trace session first (ACDREAM_PROBE_
AUTOWALK env var, ~30 LOC) to capture exactly what ACE sends during a
failed auto-walk. The trace decides between Option C (sufficient
position broadcasts) and Option A (need to fill in per-tick locally).
#64 (local pickup animation) is flagged as likely-related — same
OnLiveMotionUpdated:3289 self-echo filter drops both. May fix in
the same B.6 work.
M1's demo scenario is mechanically complete:
1. Walk through Holtburg — met via L.2a/d/g
2. Open the inn door — met via B.4b + B.4c
3. Click an NPC — met via B.4b chain + chat handlers
(visually verified 2026-05-14 on Tirenia + Royal Guard)
4. Pick up an item — met via B.5 + 87ba5c9 feedback polish
What's left to formally land: record ≈30s demo video, pin still +
writeup, flip freeze list, point CLAUDE.md "currently working toward"
at M2. Per the milestone-discipline rules, milestone landing is a
user-driven event with an artifact; this commit only updates the
factual demo-target status.
Filed but explicitly deferred (don't block M1 recording): #61 (door
swing cycle-boundary flash), #62 (PARTSDIAG null-guard), #63
(server-initiated MoveToObject auto-walk — candidate Phase B.6),
#64 (local-player pickup animation).
Phase B.5 (ground-item pickup, close-range path) shipped and
visual-verified 2026-05-14 at Holtburg. M1 demo target 4/4 ("pick up
an item") met.
New ship-handoff doc captures the 5-commit history including the
post-visual-test PickupEvent (0xF74A) wire-handler fix that closes
the local-despawn gap.
Roadmap and CLAUDE.md updated to reflect the ship + the new follow-up
issues:
- #63 (MEDIUM) — server-initiated MoveToObject auto-walk not
honored; blocks double-click pickup + out-of-range F. Filed as
candidate Phase B.6. holtburger has the reference implementation.
- #64 (LOW) — local-player pickup animation does not render
(retail observers see it correctly). Likely a self-echo filter
dropping UpdateMotion(Pickup) on the local player.
Carry-overs from B.4c (#61 link-cycle flash, #62 PARTSDIAG null-guard)
unchanged.
Captures post-B.4c state, click-NPC investigation findings (chain
already wired via Tell/CommunicationTransientString/etc; verify
opportunistically during B.5 visual test), and B.5 scope decisions
made in chat before the user requested a session handoff:
- Trigger: F-key (SelectionPickUp action, already bound)
- Target: requires _selectedGuid (no pick-under-cursor fallback)
- Wire opcode 0x0019 (GameAction.PutItemInContainer)
- Payload: itemGuid + containerGuid + placement (12 bytes)
- Container = _playerServerGuid
- Three changes in two existing files (~50 LOC total)
Plus carry-overs from B.4c (#61 cycle-boundary flap, #62 PARTSDIAG
null-guard), the B.4b ID-translation gotcha pattern to watch for,
and the standard ACE session-race tip.
Branch `claude/phase-b5-pickup` (renamed from
`claude/investigate-npc-click`) is the workspace; the fresh session
should start there.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Opus final review of B.4c flagged that Task 4's handoff doc invented
implementation details that don't exist in the code:
1. IsDoorSpawn claimed to check "spawn.WeenieObj.WeenieType == 8 OR
IsDoorName(spawn.Name)" — the actual code is just IsDoorName(spawn.Name)
delegating to "name == "Door"". No WeenieType lookup exists.
2. A "_doorSequencers" per-door dict was referenced in three places — that
dict doesn't exist. The actual code reuses the existing
_animatedEntities[entity.Id] dict (same one that holds creatures + the
player), with Animation = null! per the existing pattern at line 7885.
3. The UM dispatch path was described as a new B.4c-added branch with
pseudocode — that's wrong. B.4c does NOT add a new dispatch path;
OnLiveMotionUpdated's existing TryGetValue against _animatedEntities
handles doors automatically once Task 1's spawn-time branch registers
them. The only UM-dispatch B.4c contribution is the [door-cycle]
diagnostic line, gated on IsDoorName.
Corrects sections "At world load (spawn time)", "When the door opens",
"Per-frame mesh rebuild", and "Door types covered" to reflect the actual
shipped code. cmd→motion mapping (cmd=0x000C → open, cmd=0x000B → close)
left as-is — it was correct.
No code change. Verified by re-reading GameWindow.cs IsDoorSpawn /
IsDoorName helpers, the Task 1 spawn-time branch body, and the
TickAnimations sequencer dispatch.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Task-by-task plan with full code in every step, no placeholders.
Task 1: IsDoorSpawn helper + Door registration branch (state-seeded
SetCycle from spawn PhysicsState ETHEREAL bit).
Task 2: [door-cycle] diagnostic in OnLiveMotionUpdated for greppable
verification.
Task 3: Holtburg inn doorway visual test (user-performed).
Task 4: ship handoff + close#58 + roadmap/CLAUDE/memory updates.
Self-review table at bottom maps every spec section to its task(s);
all covered. Companion to spec
docs/superpowers/specs/2026-05-13-phase-b4c-design.md.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Phase B.4c closes#58 (filed during B.4b ship). When a door's
state flips via ACE Door.ActOnUse, the L.2g chain handles the
SetState collision-bit flip but no UpdateMotion handler ever
animated the door visually. Investigation traced the gap to the
spawn-time registration gate at GameWindow.cs:2692 which requires
a multi-frame idle cycle — doors have no idle.
Design: door-specific spawn-time branch that bypasses the gate,
builds an AnimationSequencer, seeds it with Off (closed) or On
(open) cycle based on spawn PhysicsState. ACE Door.cs:43 sets the
same initial state. ~40 LOC in one file. Reuses the existing
AnimationSequencer + per-frame tick + WB renderer pipeline. No
changes downstream.
Discovered during self-review that the per-frame tick at
GameWindow.cs:7691-7697 unconditionally overwrites ae.Entity.MeshRefs
with sequencer-derived transforms; an empty sequencer would collapse
the door to origin. The state-seeded SetCycle at spawn keeps the
sequencer always producing valid frames. Also documented:
ae.Animation = null is safe because the tick's sequencer branch at
line 7497 never reads it (only the legacy slerp else branch does).
Diagnostic tags renamed from phase-named [B.4c] to durable
[door-anim] / [door-cycle] per Opus reviewer feedback on B.4b.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Final whole-branch code review (Opus) surfaced two Important post-merge
follow-ups + a one-word inaccuracy in the handoff doc:
- #59: tighten WorldPicker per-entity Setup.Radius (M1-deferred; the
ServerGuid==0 invariant is load-bearing and worth documenting before
L.2d's CBuildingObj port lands).
- #60: port retail's obstruction_ethereal downstream path so combat-HUD
contact reporting works for ethereal creatures (M2-combat).
- handoff: corrected "Added a _entitiesByServerGuid reverse-lookup" to
"Used the pre-existing _entitiesByServerGuid" — the dict has existed
since Phase 6.6/6.7; slice 1c used it, didn't add it.
Review verdict: branch ready to merge to main.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Original spec placed WorldPicker in src/AcDream.App/Rendering/ and the
test in tests/AcDream.App.Tests/, but AcDream.App.Tests doesn't exist
as a project. Moved to AcDream.Core.Selection where it conceptually
belongs (no App-layer deps; only WorldEntity + System.Numerics) and
where the existing AcDream.Core.Tests project can hold the tests.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Phase B.4b closes the M1-blocker discovered during the L.2g slice 1
visual test: the input dispatcher fires SelectDblLeft on click but
GameWindow.OnInputAction has no case for any Select* / UseSelected
action, so clicks silently die.
Spec creates the minimum new structure to close the gap:
- New static helper WorldPicker (BuildRay + Pick over WorldEntities)
- Rename _selectedTargetGuid -> _selectedGuid on GameWindow (unifies
combat + interaction selection per retail's single-target model)
- Three switch cases (SelectLeft, SelectDblLeft, UseSelected)
Two further L.2g handoff inaccuracies surfaced during exploration:
WorldPicker and SelectionState do NOT exist in src/ (handoff and
ISSUES #57 both claimed they did). BuildPickUp also doesn't exist;
only BuildUse / BuildUseWithTarget / BuildTeleToLifestone are present.
Spec accounts for the actual state and defers BuildPickUp + SelectionState
class extraction.
Visual verification scenario reuses the L.2g slice 1 reproducibility
recipe: one Holtburg inn doorway log captures both L.2g + B.4b.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
L.2g slice 1 is CODE-COMPLETE: parser + registry mutator + WorldSession
dispatcher + GameWindow subscriber (4 commits: 2459f28, d538915,
536a608, 108e386). Build clean, 6 new tests pass, baseline-stable
across the full suite. Per-commit + final integration code reviews
all approved.
Visual verification deferred: while running the Holtburg-doorway test,
Phase B.4's outbound Use handler turned out to be unwired. The wire
builders (InteractRequests.BuildUse), classes (SelectionState,
WorldPicker), input-action enums, and keybindings all exist — but
GameWindow.OnInputAction has no case for SelectDblLeft, so the click
silently does nothing. The inbound L.2g chain we just landed can't
fire until something sends an outbound Use.
This commit captures the handoff + reframes next-session work:
* docs/research/2026-05-12-l2g-slice1-shipped-handoff.md (NEW)
Full evidence: 4 shipped commits, end-to-end code flow, B.4
discovery explanation, 4 minor + 1 Important review notes
(the Important one is a test-coverage gap that the B.4b visual
test will settle automatically), reproducibility recipe,
next-session pick.
* CLAUDE.md
"Currently in Phase L.2" paragraph: L.2g slice 1 code shipped;
visual test deferred to B.4b. Next-phase-candidates list:
L.2g slice 1 (now done) replaced with the B.4b candidate
pointing at the slice scope.
* docs/plans/2026-04-29-movement-collision-conformance.md
L.2g section gains a "Current shipped slice (2026-05-12):" table
listing the 4 commits.
* docs/plans/2026-05-12-milestones.md
M1 phase-list updated: L.2g slice 1 (code) shipped; B.4 renamed
"B.4 / B.4b" with the gap-discovery note + B.4b shape.
* docs/ISSUES.md
New issue #57 (HIGH) for the B.4 interaction-handler gap.
Promoted to Phase B.4b; will close as
DONE (promoted to Phase B.4b) when B.4b's design spec lands.
* Memory file project_interaction_pipeline.md (in personal
memory dir, not in this commit) updated to reflect reality.
Next session: Phase B.4b (~30-50 LOC, 1-2 subagent dispatches,
~30 min). Subscribe SelectDblLeft -> WorldPicker.Pick ->
InteractRequests.BuildUse -> _liveSession.SendGameMessage. Same
Holtburg-doorway visual test verifies both L.2g slice 1 and B.4b
in one pass.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
L.2d slice 1.5 ship identified the Holtburg doorway blocker as a closed
Door entity (Setup 0x020019FF) whose PhysicsState.Ethereal bit flips
when the player Uses the door. The L.2d shape-fidelity work doesn't
cover this — the door's collision shape is correct; what's missing is
honoring the *runtime* state change.
L.2g is the new sub-phase that handles it. Scope is narrow:
* Parse inbound GameMessageSetState (0xF74B).
* Plumb the new PhysicsState value into ShadowObjectRegistry's
cached per-entity state so the existing CollisionExemption.IsExempt
already-in-place short-circuit sees up-to-date bits.
* Verify the Holtburg inn-door scenario: walk in blocked, Use door,
walk through, auto-close blocks again after 30s.
* Confirm UpdateMotion (NonCombat, On/Off) drives non-creature
entities (door swing animation).
Why a new L.2 sub-letter (and not B.4 or Door-special-case): the wire
mechanism (SetState flipping Ethereal) is also how ACE handles activated
traps, opened chests, spell projectiles becoming ethereal. Generic
infrastructure with doors as the verification scenario; lane is the
informal sixth "dynamic state."
Roadmap state:
* L.2 plan-of-record adds the L.2g section after L.2f.
* Milestones doc M1 phase list extended `a-f` -> `a-g`.
* CLAUDE.md status pointer + "next phase candidates" list updated to
name L.2g slice 1 implementation as the natural next step.
Risk: low. Wire-byte width has a hex-dump fallback path in slice 1
(holtburger says 12 bytes, ACE writes 16, capture settles it). ETHEREAL
plumbing already exists; we feed it new data. No resolver changes.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Introduce a morale + scope-management layer above the roadmap. Seven
milestones (M0-M7) from "Connect & explore" to "v1.0", each defined by a
concrete playable scenario and ~6-10 weeks of work. Each milestone hit
triggers a recorded demo video + a freeze list of phases that go
off-limits until M7's polish pass.
M0 ("Connect & explore") is declared done retroactively — ~25 shipped
phases through 2026-05-12 (terrain, network, audio, particles, chat,
input, streaming, WB rendering migration, sky/lighting, particle system,
combat/spell/item data layers) are frozen. Currently working toward M1
("Walkable + clickable world"): L.2 collision + B.4 interaction, ~4-6
weeks.
CLAUDE.md gains a "Milestone discipline" section above the existing
"Roadmap discipline" — sets the two-altitude orientation (milestones
above, phases below), names M1 as the current target, and codifies the
four motivation rules: (1) one active milestone at a time, (2) frozen
phases off-limits, (3) recorded demo video per landing, (4) state both
altitudes at session start.
Addresses the "everything is half-built" feeling caused by per-phase
vertical-slice ships never adding up to a milestone-level "done" event.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
L.2d as scoped is essentially closed at the Holtburg site. The slice-1.5
trace settled the question: the "I can't walk through doorways" symptom
is a closed Door entity (Setup 0x020019FF named "Door") at the building
threshold, not a building-BSP-collision issue. Building BSP is healthy.
The two prior framings turned out wrong:
- L.2a handoff (2026-05-12): "per-cell walkability missing" — based on
hit attribution pointing at the building, missed the Door cylinder
also colliding per tick.
- L.2d slice 1 spec (2026-05-13 morning): "BSP shape fidelity, three
hypotheses X/Y/Z" — ruled out by the trace once the probe labeling
bug was fixed in slice 1.5.
Handoff doc captures full evidence, side findings (building double-
registration latent bug, missing PhysicsState in entity-source log),
and a candidates list for the next-session ordering discussion.
Plan-of-record L.2d sub-direction paragraph updated to match: "watch-
and-wait" mode, no more slices until a new shape-fidelity bug is
observed at a different site. Door-state handling becomes its own
sub-phase, scope deferred to project-ordering discussion.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Adds ACDREAM_PROBE_BUILDING — a read-only per-shadow-entry probe that
captures full BSP collision evidence whenever TransitionTypes.FindObjCollisions
attributes a hit (via the existing L.2a slice 3 chain). One multi-line
[resolve-bldg] entry per attributed hit: partIdx, hasPhys, bspR vs
vAabbR, world-space entOrigin_lb, and the actual hit polygon's vertices
in both object-local and world space.
Paired with a one-time [entity-source] line at every ShadowObjects.Register
call site in GameWindow so entityId from a probe line is greppable to its
WorldEntity source within a single log file.
Plumbing: BSPQuery writes the resolved hit polygon to a new
PhysicsDiagnostics.LastBspHitPoly side-channel at the 5 SetCollisionNormal
sites in Paths 5/6 + CollideWithPt. TransitionTypes clears that field
before each shadow-entry dispatch and reads it back at the L.2a slice 3
attribution site to emit the probe line.
Spec component 4 originally described an out ResolvedPolygon? parameter
on BSPQuery.FindCollisions; the static side-channel achieves the same
observable behavior without plumbing through BSPQuery's recursive private
methods. Deviation noted in PhysicsDiagnostics.LastBspHitPoly's XML doc.
Reframes the plan-of-record's L.2d sub-direction paragraph: the 2026-05-12
handoff proposed porting CBuildingObj + per-cell walkability, but ACE
BuildingObj.cs:39-52 + named-retail acclient_2013_pseudo_c.txt:701260
show find_building_collisions is one BSP test on Parts[0]. Per-cell
walkability belongs to L.2e, not L.2d. L.2d slice 1 is the diagnostic;
slice 2 is the actual fix scoped from slice 1's evidence (one of three
hypotheses: wrong BSP loaded / over-registered parts / BSPQuery flaw).
Tests: 2 synthetic unit tests in PhysicsDiagnosticsTests.cs pin the
static API contract that the BSPQuery → side-channel → TransitionTypes
emission chain depends on. The multi-line line format itself is verified
by acceptance criterion 2 (live Holtburg-doorway capture) — covering it
here would require a heavy PhysicsEngine + Transition fixture for a
diagnostic-only emission.
Verified: dotnet build green; the 2 new tests pass; the 8 pre-existing
test failures listed in the L.2a handoff (MotionInterpreter GetMaxSpeed_*,
PositionManager.ComputeOffset_BothActive_Combined,
PlayerMovementController.Update_ForwardInput_*, Dispatcher.W_held_*,
BSPStepUpTests.{D4,C3}) remain failing — none introduced by this slice.
Spec: docs/superpowers/specs/2026-05-13-l2d-cbuildingobj-collision-design.md
Conformance anchors:
- acclient_2013_pseudo_c.txt:701260 (CBuildingObj::find_building_collisions)
- acclient_2013_pseudo_c.txt:323725 (BSPTREE::find_collisions)
- ACE references/ACE/Source/ACE.Server/Physics/Common/BuildingObj.cs:39-52
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Reframes L.2d direction based on ACE BuildingObj.cs:39-52 + named-retail
acclient_2013_pseudo_c.txt:701260: retail's find_building_collisions is
one BSP test on PartArray.Parts[0]. No per-cell walkability. Per-cell
work (find_cell_list, point_in_cell, sphere/box_intersects_cell) is
L.2e territory.
Slice 1 is now a read-only BSP-hit diagnostic that captures full
collision evidence per L.2a [resolve] hit=yes line. Distinguishes 3
hypotheses (wrong BSP loaded / over-registered parts / BSPQuery flaw)
before any behavior change. Slice 2 is the actual fix, scoped from
slice 1's evidence.
Authors: brainstorm session 2026-05-13 (cold-start from L.2a slice
1+2+3 evidence). Predecessor handoff at
docs/research/2026-05-12-l2a-shipped-l2d-handoff.md.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Documents the L.2a-slice-1/2/3 ship for the next session and updates
the project's source-of-truth docs to reflect current state.
New files:
- docs/research/2026-05-12-l2a-shipped-l2d-handoff.md — full cold-start
handoff: what shipped, three findings (L.2e cell-id format gap, L.2c
wall-slide working, L.2d sub-direction = CBuildingObj port), branch
state, diagnostic surface inventory, files changed, open concerns,
cold-start checklist, reproduction recipe.
- docs/research/2026-05-12-l2d-next-session-prompt.md — terse copy-paste
prompt for the next Claude Code session.
Modified:
- docs/plans/2026-04-29-movement-collision-conformance.md — added "Current
sub-direction" note under L.2d capturing the evidence-driven call:
building-mesh fidelity issue, not door-state-toggle.
- CLAUDE.md — updated "Currently between phases" → "Currently in Phase
L.2"; added L.2a shipped paragraph; added ACDREAM_PROBE_RESOLVE /
ACDREAM_PROBE_CELL to Diagnostic env vars; prepended L.2d brainstorm
to next-phase candidates list.
No code changes in this commit.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
New static `AcDream.Core.Physics.PhysicsDiagnostics` holds two
runtime-toggleable flags initialized from env vars:
- ACDREAM_PROBE_RESOLVE=1 — emit one [resolve] line per
PhysicsEngine.ResolveWithTransition call: input/target/output
position+cell, ok-vs-partial, grounded-in, contact-plane status,
wall normal if hit, walkable-polygon valid, moving entity id.
- ACDREAM_PROBE_CELL=1 — emit one [cell-transit] line per
PlayerMovementController.CellId change: old → new cell, current
world position, reason tag (resolver / teleport).
Both also exposed as runtime-toggleable checkboxes in the DebugPanel
"Diagnostics" section. Unlike the existing four Dump-* checkboxes
(which only mirror sticky-at-startup env vars), the two new ones
forward directly to PhysicsDiagnostics — toggling on/off takes
effect on the next physics resolve, no relaunch.
Why now: L.2's plan-of-record (docs/plans/2026-04-29-movement-collision-
conformance.md) explicitly says "Land L.2a diagnostics first. Do not
make another physics change blind." This slice closes the most-load-
bearing gap in L.2a — a general-purpose probe on the resolver outcome
and a cell-transit log — so that later L.2b/c/d/e physics changes can
be evidence-driven instead of guessed. Foundation for the indoor /
dungeon walking trajectory (G.3 unblock).
Pure additive: when both flags are off (default), the probes collapse
to a single static-bool read per resolve, zero log cost. PlayerMovement
Controller's two CellId-mutation sites are now routed through a
private UpdateCellId(reason) helper for diag chokepoint.
Build green, 1032/1040 unit tests pass. The 8 failing tests are
pre-existing on the branch base (verified by stash-and-rerun);
none touch resolver or cell-transit code; all fail identically with
this slice stashed. Investigation deferred to a follow-up.
Refs: docs/plans/2026-04-29-movement-collision-conformance.md (L.2a
shipped-slice note added in same commit).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Roadmap:
- Status header now reads "Between phases" with C.1.5b in the recent-wins
bullet list.
- New SHIPPED row in the table (C.1.5b) summarising both slices, the
reality discovery about EnvCell statics, and the 4 visual-verified sites.
- The "IN FLIGHT — C.1.5b" sub-bullet under Phase C flipped to SHIPPED.
ISSUES.md:
- #56 removed from Active.
- #56 added to Recently closed with full commit chain (1e3c33b spec+plan,
f3bc15e SetupPartTransforms helper, 11521f4 ParticleHookSink part-transform,
5ca5827 activator refactor, 8735c39 GpuWorldState fire-sites), resolution
notes, and the visual-verification record.
CLAUDE.md:
- "Currently in flight" pointer replaced by a "Currently between phases"
marker + a C.1.5b shipped paragraph that's parallel to the existing
C.1.5a entry.
- "After C.1.5b" → "Next phase candidates".
Visual verification 2026-05-12: portal swirl matches retail extent + lateral
spread (no ground-burial); Holtburg Inn fireplace flames; cottage chimney
smoke; spell-cast particles on +Acdream — all match retail.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Two-slice phase:
- Slice A: ParticleHookSink applies CreateParticleHook.PartIndex via
SetupPartTransforms.Compute(setup.PlacementFrames). Closes#56.
- Slice B: drop EntityScriptActivator's ServerGuid==0 guard so
dat-hydrated EnvCell statics + exterior stabs fire DefaultScript.
Key reality discovery folded into the spec §3: EnvCell.StaticObjects
are already WorldEntities (via GameWindow.BuildInteriorEntitiesForStreaming),
so no synthetic-ID scheme + no new walker class needed — the handoff's
§4 Q1/Q2 options are mooted by entity.Id being collision-free.
Doc-drift fixes from C.1.5a folded into §8.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Self-contained handoff doc for the C.1.5b session. §1 is a copy-paste
startup prompt for a fresh Claude Code session; §2+ is detailed
context (commits shipped in C.1.5a, decision space for the #56 fix
including precompute-per-spawn vs render-thread-side-table options,
EnvCell synthetic-id scheme, walker-class placement options, file
pointers, verification plan).
Slice will resolve issue #56 first (per-part transform handling for
static entities) before adding the EnvCell static-object DefaultScript
walker, per the C.1.5a final reviewer's recommendation that resolving
#56 unblocks slice 2's visual delight gate (the multi-emitter
collapse symptom affects portals, chimneys, and fireplaces alike).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Visual verification at the Holtburg Town network portal passed for the
slice's mechanism: 10-hook portal script fires end-to-end with correct
color, persistence, orientation, and multi-emitter dispatch. After the
334f0c6 rotation-seed fix, the swirl is oriented correctly along the
portal's facing instead of world-NS.
Known limitation surfaced during verification and filed as issue #56:
ParticleHookSink ignores CreateParticleHook.PartIndex, so all 10 of the
portal's emitters collapse to the entity root position + identity-rotated
offset, producing a compressed and partly-ground-buried swirl instead of
the multi-tier shape retail renders. Mechanism is correct; per-part
transform handling is the next vfx-pipeline concern (will affect every
multi-emitter PES — slice 2 chimneys/fireplaces in particular).
Documentation changes:
- docs/ISSUES.md: new #56 entry with the captured entity guids
(0x7A9B405B / 0x7A9B4080), script ids (0x3300126D / 0x3300067A),
symptom data, root-cause hypothesis, file pointers, and acceptance
criterion. Notes the blocks-slice-2 relationship explicitly.
- docs/superpowers/specs/2026-05-12-phase-c1.5a-portals-design.md §9:
new limitation #1 documenting the verified PartIndex collapse symptom.
- docs/plans/2026-04-11-roadmap.md: new "C.1.5a" row in the shipped
table referencing the spec, plan, and #56 caveat.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Plan: docs/superpowers/plans/2026-05-12-phase-c1.5a-portals.md. Four
tasks, TDD-style, each task is a single commit boundary:
1. EntityScriptActivator class + three xUnit tests
2. Wire into GpuWorldState (new optional ctor param + two ?. calls)
3. Construct in GameWindow with resolver lambda
4. Visual verification at Holtburg Town network portal + roadmap update
Spec amendments correct an inaccuracy in the 2026-05-12 commit
(06d7fbd): the activator's call sites live in GpuWorldState
(AppendLiveEntity / RemoveEntityByServerGuid), not directly in
GameWindow as the original spec described. Also fixes the test file
path: tests/AcDream.Core.Tests/... not AcDream.App.Tests/... per the
existing test-project convention. No design changes — same activator,
same trigger condition, same lifecycle ordering.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Slice 1 of Phase C.1.5: fire Setup.DefaultScript through the already-
shipped PhysicsScriptRunner on server-spawned WorldEntity create, so
portals (and any other entity with a DefaultScript) emit their retail-
faithful persistent particle effects at spawn time. Reuses the C.1
runner-sink-system-renderer chain end-to-end; one new ~50-line class
(EntityScriptActivator) plus a two-line wiring in GameWindow.
Slice 2 (C.1.5b) will cover EnvCell.StaticObjects + animation-hook
verification; spec landed separately after slice 1 verification passes.
Acceptance: visual confirmation at the Holtburg Town network portal,
side-by-side with retail.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Final code review of slice 1 flagged one Important issue (the spec's
"zero cost when off" claim for the surface-dump path is technically
violated — _uploadMetadata always writes one dict entry per upload
regardless of env var) plus minor doc/consistency gaps. Applied:
1. Spec §5 "Cost when off": dropped the "Zero" claim; replaced with
"Negligible — one Dictionary write per upload (~30-50 KB at Holtburg)
plus a hash-table write per upload. Expensive work (file I/O,
histogram construction) is still env-gated." This matches reality.
2. Baseline doc §5: rewrote from "Raw logs (scratch, can be deleted)"
referencing files that were never preserved in this worktree, to
"Reproducing the measurements" with the actual PowerShell launch
commands. Honest about the raw logs not being kept; the captured
medians in section 2 are the canonical record.
3. New issue #55 filed in docs/ISSUES.md — static-entity slow path
reports ~1.45M meshMissing/5s at r4 standstill, drops to ~0 when
walking. LOW severity (no visible regression), hypothesis points
at a "permanently-missing entity gets re-classified every frame"
pattern that Tier 1 cache doesn't cover.
4. Roadmap shipped table: renamed "N.6.1" row to "N.6 slice 1" to
match every other artifact's naming. Search-discoverability fix.
None of these change the slice's conclusion or next-phase
recommendation (C.1.5 first, then reduced-scope slice 2).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Code-quality review on commit 13abf96 flagged 3 Important issues in
the baseline document plus 2 minor roadmap consistency gaps. Applied
all of them:
1. The "CPU scales superlinearly with N₁" claim was imprecise because
CPU growth (4.0×) is actually sublinear vs near-LB count (7.7×).
Clarified: CPU grows more than linearly with radius N₁ but
sublinearly with visible-LB count; frustum cull discards most far
LBs early. The outer per-LB walk still scales with N₁, which is
what Tier 2's persistent groups address.
2. The "40-50% memory footprint reduction from atlas packing" estimate
was asserted without derivation and likely too optimistic given all
surfaces are already power-of-two and same-format (RGBA8). Replaced
with a more honest bound: "low-MB to ~10 MB absolute saving" with
explicit per-array metadata overhead reasoning. Conclusion is
unchanged — atlas adoption still isn't justified given GPU
under-utilization.
3. The "spec §6 threshold for atlas is >30%" citation pointed at text
that doesn't exist in the spec. Replaced with "A conventional
rule-of-thumb" so a future reader doesn't chase a phantom citation.
Plus roadmap consistency:
M1: The N.6 slice 1 bullet now uses the canonical "✓ SHIPPED — Title.
Shipped YYYY-MM-DD." prefix that every other shipped phase uses.
M2: Added N.6.1 row to the shipped table at the top of the roadmap
(lines ~55-66) so the at-a-glance shipped list is complete.
None of these change the conclusion or the next-phase recommendation
(C.1.5 first, then reduced N.6 slice 2). The fixes improve doc accuracy
and future-readability.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Capture authoritative CPU+GPU dispatch numbers at Holtburg with the
gpu_us diagnostic now working (commit 25cb147). Three radii (4/8/12)
x two motion modes (standstill/walking) + a surface-format histogram
from ACDREAM_DUMP_SURFACES=1.
Adds env-gated one-shot dump path (TextureCache.TickSurfaceHistogramDumpIfEnabled,
called from GameWindow.OnRender) that fires once after both (a) frame
600 of the session AND (b) the upload-metadata dict reaches 100 entries
-- the cache-size gate prevents the dump from firing during pre-world
GUI ticks where OnRender spins at high rates but no scenery has streamed.
Output writes to %LOCALAPPDATA%\acdream\n6-surfaces.txt with a try/catch
around the I/O so disk-full / permission errors don't crash mid-measurement.
Baseline document at docs/plans/2026-05-11-phase-n6-perf-baseline.md
documents:
- CPU dominates GPU by 30-50x at every radius (strongly CPU-bound)
- GPU wildly under-utilized (max gpu_us p95 ~600us vs 16,600us frame budget)
- CPU scales superlinearly with N1 (Tier 1 cache wins on inner loop but
not outer LB walk)
- Surface atlas opportunity high (59% of textures in top-3 triples) but
win is memory-only since GPU isn't bottlenecked
Recommendation: C.1.5 (PES emitter wiring) next, then a reduced-scope
N.6 slice 2 (drop atlas + persistent-mapped buffers -- not justified by
the GPU under-utilization observed).
Roadmap entry amended to split N.6 into slice 1 (shipped) and slice 2
(planned, reduced scope, deferred until after C.1.5).
Spec: docs/superpowers/specs/2026-05-11-phase-n6-slice1-design.md.
Plan: docs/superpowers/plans/2026-05-11-phase-n6-slice1.md (Task 4).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
