The per-tick remote de-overlap sweep used a hardcoded HUMAN collision sphere
(0.48 m radius / 1.835 m capsule top) for EVERY creature, so large and small
monsters de-overlapped at human spacing (register TS-46). Retail seeds the
transition from the object's OWN Setup sphere list scaled by its wire ObjScale
(CPhysicsObj::transition 0x00512dc0 -> init_sphere(GetNumSphere, GetSphere,
m_scale); ObjScale from set_description 0x00514f40).
Slice 3 (one call site, no signature change): before the Path B ResolveWithTransition
call, read the creature's Setup-derived dims via the existing GetSetupCylinder
helper -- (setup.Radius, setup.Height) x ObjScale, the same source the local player
and the moveto/sticky radii already use, consistent with the spawn-time shadow
registration's entScale -- and pass them as sphereRadius/sphereHeight. Fall back to
the human capsule when GetSetupCylinder returns (0,0) for a shapeless / unresolvable
Setup (a zero radius would degenerate the sweep). The player call site is unchanged
(the player IS the human Setup). stepUp/stepDown stay 0.4 m (retail derives those
from the Setup too -- an adjacent divergence left as-is).
Big monsters now spread wider, small ones tighter -- the de-overlap distance tracks
each creature's true radius.
Test: RemoteDeOverlapMechanismTests.ConvergingLargeCreatures_DeOverlapWiderThanHuman
(an R=0.9 pair settles ~1.8 m -- materially wider than the human 0.96 m contact --
proving the sweep de-overlaps at the radius it is given). Register: narrows TS-46
(remotes no longer human-dimmed; residual = the two-scalar reconstruction vs retail's
sphere list, plus the 0.4 m step heights). Core 2621 / App 741 green.
Research: workflow wf_e8306250-21b (3-agent read-only sweep: acdream data source /
retail init_sphere reference / minimal-edit path).
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Packed monster remotes interpenetrate in acdream but barely in retail on the same
ACE. Retail de-overlaps them CLIENT-side: it sweeps every remote creature every
tick against neighbours' LIVE resolved positions (the collision shadow == the
resolved m_position, re-registered every moved transition step), with the server
position a gentle catch-up target (CPhysicsObj::MoveOrTeleport 0x00516330), not a
hard-snap. The collision math was already faithful; the bug was the reconciliation
(hard-snap) + the movement model (synth-velocity) + a stale shadow.
A first attempt (reverted) enqueued EVERYTHING and left the shadow at the raw
server position — it gate-failed with invisible monsters (an unplaced body blipped
over a huge distance into the sweep -> garbage pos) and the player stuck on offset
shadows. This redo fixes both root causes, mechanism-proven in a Core test first:
- NPC UpdatePosition routes through MoveOrTeleport with a PLACEMENT-SNAP: the body
is snapped to the server pos when it is not already near it (first UP, no
Sequencer to consume the queue, >96 m, or |Body - worldPos| > 4 m); only near DR
corrections enqueue. This restores the body's placement authority (no invisible
monsters). Airborne keeps the authoritative hard-snap.
- Grounded movement drives the body from the interp CATCH-UP (ComputeOffset ->
InterpolationManager::adjust_offset, REPLACE dichotomy) instead of synth-velocity
(get_state_velocity / SERVERVEL); MovementManager::UseTime runs unconditionally.
- SHADOW-FOLLOWS-RESOLVED: after each tick's sweep the collision shadow is
re-registered at the resolved body (SyncRemoteShadowToBody), movement-gated
(|Body - LastShadowSyncPos| > 1 cm). The per-UP :5669 raw-pos sync is now
PLAYERS-ONLY, so an NPC's shadow is only ever written to its resolved body ->
neighbours de-overlap against resolved bodies, the spread PERSISTS, and collision
== render (no stuck-on-nothing). Landing clears the interp queue.
Preserved: airborne path, sticky #171 (gate + StickyManager overwrite of the seeded
frame), omega, the #173 bounce, landing, the node_fail_counter watchdog, and Path A
(player remotes, untouched -- Slice 2 unifies it).
Tests (RemoteDeOverlapMechanismTests): converging pair settles STABLE at 0.86 m
(barely overlapping = the retail look) WITH the shadow-sync vs <0.40 m (full
overlap) WITHOUT it; a third test drives the REAL InterpolationManager loop and
confirms the sweep absorbs the stall-blip (no pop-into-neighbour). 2-lens Opus
review (CONCERNS) addressed: movement-gated re-flood for the town-FPS risk;
players-only :5669; the blip-absorption test.
Register: retires TS-41 (SERVERVEL synth-velocity -> catch-up), narrows TS-44 (NPC
UP unified onto the interp queue; gate kept for orientation), adds AP-86
(shadow-follows-resolved impl) + AP-87 (MoveOrTeleport 4 m/no-Sequencer placement
snap). Known residual: the de-overlap sweep uses the human sphere for the mover, so
large creatures de-overlap at human radii (TS-46; Slice 3 plumbs Setup dims).
Visual gate PASSED (user: monsters visible + spacing much better). Core 2620 /
App 741 green.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Replaces PlayerMovementController's ad-hoc airborne-only reflect + Velocity.Z landing
snap with the verbatim retail chain: cached_velocity = (resolved-old)/dt (separate
reporting value), SetPositionInternal contact determination (kept Velocity.Z<=0 gate for
acdream's always-step-down resolver), then handle_all_collisions (fsf<=1 reflect / fsf>1
zero — the airborne-stuck bleed). Contact is committed BEFORE the reflect so the landing
gate isn't defeated by a reflected +Z; that ordering + the ungated small-velocity-zero
(Slice 1a) retire AD-25's micro-bounce spiral.
Load-bearing: handle_all_collisions + cached_velocity are gated on candidateMoved (retail
UpdateObjectInternal pc:283657 only reaches SetPositionInternal when the integrated
candidate moved off m_position). After fsf>1 zeros a blocked jump, the next frame
integrates zero motion (velMag2==0), so the candidate hasn't moved — skipping the response
that frame lets gravity rebuild the velocity instead of re-zeroing it and re-wedging.
End-to-end Core test (Issue182CrowdJumpTests): a jump blocked by an overhead creature
bleeds its +12 up-velocity to ~0 within a couple frames (fsf>1) and the body grounds on
the manufactured plane instead of hanging with persistent +12. Core 2617 / App 741 green.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Completes the TS-3 stub (the deferred 'full physics port'):
- ValidateTransition: the fsf increment/reset ladder + the fsf>=3 upward-contact-plane
manufacture (retail validate_transition 0x0050aa70 pc:272625-656; ACE Transition.cs:
1029-1061). Runs after acdream's fused contact block (structural adaptation preserving
the L.2.3c/L.2.4/A6.P3 contact-retention divergences), deriving retail's _redo as
cleanAdvance || OnWalkable — a grounded wall-slide is not a stuck-fall.
- The sweep-loop fsf early-out (retail find_valid_position pc:273745 / ACE :587): stop
as soon as fsf != 0, so a later advancing sub-step can't reset it in the same frame
(load-bearing — without it the counter never escalates across frames).
- ObjectInfo.MoverHasGravity gate (pc:272625).
- PhysicsEngine: seed ci.fsf from the body's Stationary* bits AFTER InitPath
(retail transition() pc:280940-947); writeback publishes body.FramesStationaryFall +
encodes the Stationary* bits (co-located with the fsf compute so the round-trip is
self-contained in Core; retail encodes in handle_all_collisions — register note).
Tests: FramesStationaryFallTests — an airborne jump wedged under an overhead creature
escalates fsf 0->1->2->3 and at fsf 3 manufactures the UP plane (grounded 'glide onto
the crowd top'); a grounded wall-slide never accumulates fsf. Core 2609/0.
Behaviour dormant in ordinary locomotion (fsf stays 0 unless a gravity mover is blocked).
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Verbatim UpdatePhysicsInternal (0x00510700): the small-velocity-zero
(<0.25 m/s) fires unconditionally, not gated on OnWalkable (the old acdream
divergence) — gravity re-accelerates the same frame via the unconditional
v += a*dt. Adds TransientStateFlags.Stationary{Fall,Stop,Stuck} (0x10/0x20/0x40)
for the fsf round-trip, plus PhysicsBody.FramesStationaryFall and the separate
CachedVelocity field (retail's two-velocity model — reporting/DR only, never fed
to the integrator). All 1536 physics tests green.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Humanoid creatures/players collide as body Spheres (ShadowShapeBuilder emits
Sphere-type shadows for a Setup with Spheres + no CylSpheres), so player-vs-monster
crowd contact ran through Transition.SphereCollision — a hand-rolled 3-D wall-slide
(register TS-45), NOT a port of retail CSphere::intersects_sphere. It shaved no eps,
force-pushed each contact RADIALLY to a fixed combinedR+1cm shell, ignored the head
sphere, and always returned Slid. In a crowd the opposing radial de-penetration
pushes from neighbours fight each other -> the player wedges and can't wiggle free
(the user's live report).
Port the full CSphere family verbatim — dispatcher 0x00537A80 + step_sphere_up /
slide_sphere / land_on_sphere / collide_with_point / step_sphere_down — the direct
analog of the 2026-07-05 CCylSphere port (#172). The grounded slide now routes
through the shared crease SlideSphere (0x00537440, #116-Ghidra-confirmed) ->
tangential shuffle along the contact toward gaps, retail-faithful. isCreature
(target creature/missile) gates OFF the stand-on/land-on branches (2 & 5). ACE
Sphere.cs = readable oracle; pseudocode doc 2026-07-07-csphere-collision-family.
Retail-faithfulness verified: CTransition::validate_transition (0x0050aa70:272593)
reverts curr_pos on any non-clean-OK step, so a deep-mutual-overlap start wedges in
retail too — the realistic crowd-edge graze slides free (SphereCollisionFamilyTests
slide-around trajectory: player grazes a creature's SW, curves around its west side,
continues N).
TS-45 retired, AP-84 added (PerfectClip TOI dead in M1.5). Core 2603/0, App 741/0.
Pending user visual gate.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Attached cdb to live retail (PDB MATCH), broke on PView::DrawCells (0x005a4840),
dumped cell_draw_num + cell_draw_list cell ids + the eye
(Render::FrameCurrent->viewer.viewpoint) while descending the Facility Hub spiral.
Retail's flood is dynamic and IDENTICAL in character to ours: from the spiral cells
it swings num 3->27 with gaze and collapses to 3 cells at many poses (cam=015d ->
{015d 015e 015f}). Our flood does the same (3->43). So retail does NOT keep the
staircase where we drop it -- the flood is exonerated as the cause.
Session trail (all in ISSUES #177): ruled out lighting, membership, camera coherence,
the collision sweep, the 0178/0182/0183 handoff cells, and edge-on eye-in-opening
(fix#1 shipped -> visual-gate-failed -> reverted, PortalVisibilityBuilder + AP-86 both
restored exactly). Freshest un-chased lead: the steps are STATIC objects (GfxObj
0x010000DE x6/cell) drawn via the viewcone cull, not cell shell.
Adds: Issue177StairDescentCameraFloodTests (real-camera+flood + composition +
flood-depth characterization pins) and a reusable retail-cdb capture toolchain
(tools/cdb/pview-verify.cdb, pview-spiral2.cdb with the correct top-level-qd detach --
qd in a CONDITIONAL bp action does NOT fire and strands cdb attached).
No production code change (fix#1 reverted). PARKED per user; M1.5 critical path next.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
The user's retail axiom (camera rock steady pressed into walls) vs our measured wall-press wander (~0.5mm/frame limit cycle, headless pin Issue181WallPressEquilibriumTests) sent us back to the decomp. Ghidra (clean, vs the BN x87 mush): retail VIEWERS subdivide the sweep into EXACTLY radius-length steps anchored at the start (offsetPerStep = offset*r/len, numSteps = floor(len/r)+1) with the final step recomputed mid-loop as the exact remainder (find_transitional_position 0x0050bdf0), and the negligible-offset abort is NON-viewer-only. Ours used ceil equal-slices for everything and aborted viewers too. Ported faithfully (pseudocode docs/research/2026-07-06-viewer-step-subdivision-pseudocode.md); non-viewer stepping already matched (TRANSITIONAL_PERCENT_OF_RADIUS=1.0).
Measurement: the wall-press limit cycle is UNCHANGED by the port (537.8um avg; a bit-exact 12-frame cycle: ~130um/frame inward creep x11 then a 2.6mm snap). With adjust_to_plane + adjust_sphere_to_poly now also Ghidra-verified faithful, the residual mm cycle is likely retail-class plateau physics - invisible at retail's 60fps vsync, tear-interleaved into visible stripes at our ~1500fps unsynced. The decisive user test: VSync ON (Settings/F11). Fallback discriminator: cdb-trace retail's viewer at a wall press. Suites green (Core 2600 / App 733 / UI 425 / Net 385).
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Diagnostic_FlappingCellViewRegion_SliverOrLarge: at the flap pose the admitted region is one degenerate triangle (ndcArea ~0), and ClipPlaneSet.From handles degenerates correctly (area<1e-7 -> Empty) - the cell's own gated geometry costs ~zero pixels either way. The a7 pseudocode CORRECTION-2 re-read kills the flood-scoped-lights framing (the pool is already resident+player-anchored since d8984e87). Remaining suspects: per-cell light-set SSBO slot assignment (SelectForCell) or the seal/punch assembly keyed to the drawn-cell list. Next instrument: parked ACDREAM_PROBE_SEAMDRAW=1 run, diff the washed cell's [seam-blk] applied-set lines between vis=31 and vis=32 frames. ISSUES #181 + render digest updated.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Issue181VisFlapReplayTests: headless flood replay at the live parked pose names cell 0x8A020181 - +-0.5mm eye perturbations flip its admission (at yaw15/pitch-20 for every direction). Issue181CameraParkStabilityTests: the camera loop parks BIT-EXACT with static inputs (0.00um over 2000 frames) - the live ~1mm/frame wander is the wall-press equilibrium (sought steps a*gap ~4mm into the wall per frame, the clip lands within adjust_to_plane's parametric 0.02 window; player physics bit-frozen per [resolve]). That wobble is retail-class. The defect is OURS: the A7 adaptation scopes light application to the camera flood's per-frame admission, so a sliver cell flapping flips whole lit regions; retail computes light reach once at registration (Render::add_static_light -> CObjCell::add_lights), camera-independent. Fix direction: registration-time per-light reach sets via the portal graph (pseudocode docs/research/2026-07-06-a7-per-cell-lighting-pseudocode.md). ISSUES #181 updated with the full chain.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
The autonomous visual loop on the stateful-sought camera exposed the true
root of the #176 stripes: a ~19Hz SAWTOOTH. The sought re-extends ~3mm/frame
and the sweep silently passes while the 0.3m viewer sphere presses up to
~0.25m past the wall plane, then clips a whole transition step (~0.27m) back.
Headless replay against the real Facility Hub corridor BSP (0x8A020164, the
captured ray) reproduced it exactly: pre-fix, embedded targets passed
unclipped and the first detection stopped at the PREVIOUS STEP BOUNDARY,
tracking the target (eyeBack = s - 0.27).
Root cause: BSPQuery.AdjustToPlane - copied from ACE's BSPTree.cs port -
was structurally inverted and ALWAYS returned false (the touchTime==1 branch
re-placed the sphere at the unchanged check position; touchTime<1 iterated
doing nothing; the <0.02 convergence exit returned false). With the
PerfectClip exact-contact machinery dead, CollideWithPt always fell to the
bare Collided path and the transition reverted the colliding step whole.
ACE never noticed: PERFECT_CLIP (0x40) is a client camera flag the server
never exercises (feedback_bn_decomp_field_names class 3 - the retail binary
outranks ACE in branches ACE never runs). The pre-stateful camera flipped
1-step vs 2-step backoffs on mm drift - the measured pulledIn 0.27 <-> 0.53
of the original #176 strobe was step quantization all along.
Rewritten per the retail binary (pseudocode doc
docs/research/2026-07-06-adjust-to-plane-pseudocode.md):
- BSPTREE::adjust_to_plane (0x00539bf0): clearTime/hitTime bounds (0.0/1.0),
Phase 1 walks plane-touch times re-testing the whole tree (the tree test
feeds a DIFFERENT blocking poly back into the next iteration), Phase 2
binary-searches with the SHARED iteration counter, window < 0.02 =
CONVERGED, final commit = last known-clear time. Only failure = Phase-1
exhaustion.
- CPolygon::adjust_sphere_to_poly (0x00538170): early-out = plane-band test
at the START position (was: precise-poly test at the check position);
touch side = sign(dpPos)*radius (was: hard-coded -radius; ACE misdecoded
it as movement.LengthSquared() <= r^2); result unclamped per retail.
Replay pin Issue180CorridorSweepHysteresisReplayTests: short-of-touch
targets pass, past-touch targets always clip, and the clipped stop is the
CONSTANT surface-contact point (eyeBack 1.609 across the band; spread
< 0.03m) instead of tracking the target.
Suites green (Core 2600+2skip / App 729+2skip / UI 425 / Net 385).
Pending: visual-loop re-verify + the user gate (#180 + #176 re-gate).
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
The camera-collision sweep strobed the eye 0.27m every ~5-10 frames while
the compressed chase boom moved along corridor walls (pulledIn 0.27<->0.53
on ~1.4mm input drift): RetailChaseCamera re-demanded the FULL-length ideal
boom from scratch each frame, so the pivot->eye ray re-rolled the same
knife-edge r+-eps graze on the double-faced slabs every frame, and its two
first-contact solutions tear-interleaved at ~1700fps into the #176
"stripes/triangles".
Retail never re-rolls that ray. CameraManager::UpdateCamera (0x00456660)
interpolates FROM THE CURRENT SWEPT VIEWER toward the desired pose
(interpolate_origin/rotation, stiffness 0.45 x dt x 10, clamped) and the
result becomes viewer_sought_position (SmartBox::PlayerPhysicsUpdatedCallback
0x00452d60); update_viewer (0x00453ce0) sweeps pivot->SOUGHT. Pressed against
a wall the sweep ray extends one interpolation step past the contact
(sub-mm at high fps), so a bistable graze can move the eye by at most that
step - the strobe is structurally impossible. A 0.4mm/2e-4 dead-band parks
the sought exactly on the viewer when converged (0x00456fcd-0x00457035).
- RetailChaseCamera: _dampedEye -> _soughtEye + _publishedEye (retail's two
Positions); lerp base = the published (swept) viewer; sweep targets the
sought; total-fallback (ViewerCellId==0) resets the sought like
set_viewer(player_pos, 1). The old "collision must NOT feed back into the
damped state" comment had the coupling backwards - what stays clean is the
transient desired pose, not the sought.
- SweepEye untouched (faithful update_viewer port, exonerated by the #180
investigation).
- Tests: the old pin asserting instant full re-extension after a clamp
(the divergence itself) replaced with four retail pins: gradual
re-extension, sweep-target-converges-onto-contact, total-fallback
re-extends from the player, wall-press glide stability.
- Pseudocode doc: docs/research/2026-07-06-camera-sought-position-pseudocode.md
(UpdateCamera tail incl. the sought derivation + set_viewer reset semantics
+ Frame interpolate/close_rotation).
- Register: AD-37 (forward-vector nlerp vs quaternion slerp), AD-38
(init-at-full-extension vs retail re-extend-from-player) - both
pre-existing, identified during the decomp reading.
Suites green (Core 2599+2skip / App 729+2skip / UI 425 / Net 385).
Pending: autonomous visual verify + user gate (#180 + the #176 re-gate).
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
The seam-floor purple flicker was NOT a draw z-fight. The in-engine
[seam-*] probe (ACDREAM_PROBE_SEAMDRAW - built because RenderDoc cannot
capture this pipeline: it hides GL_ARB_bindless_texture and the
mandatory-modern startup gate throws; AMD GPU rules out Nsight) killed
every double-draw suspect: ONE shell instance per seam cell at the
lifted z, no floor-coincident entity (portal entities sit at z=-12.05),
zero portal depth fans in the sealed Hub. What it caught instead: the
corridor floor's applied light set flipping wholesale with the flood.
Root cause: c500912b scoped BuildPointLightSnapshot by the per-frame
portal flood, on the research doc's gloss of CEnvCell::visible_cell_table
as "the portal-flood visible set". The named decomp refutes the gloss:
add_visible_cell (0x0052de40) DBObj-LOADS absent cells and inserts them;
a cell activation adds itself + its whole dat visible-cell list
(0x0052e228/0x0052e24a); entries leave only via the flush machinery.
It is the RESIDENT-cell registry - gaze can never remove a cell.
add_dynamic_lights (0x0052d410) walks the WHOLE table per frame
(caller 0x00452d30), and insert_light (0x0054d1b0) caps the pool by
distance to Render::player_pos (0x0054d1dd). Retail's pool is a function
of player position only. Ours followed the camera: turning changed the
flood (probe: 8..41 cells across one turn), the six intensity-100
under-room portal purples entered/left the pool, and the wedge blinked.
Fix: BuildPointLightSnapshot(playerWorldPos) collects ALL registered
(=resident) lit lights; over cap keeps dynamics FIRST (retail's separate
7-slot dynamic pool never competes with statics) then nearest-the-player;
the RebuildScopedLights callback is deleted. Live-verified with the probe:
full-circle turn, flood churning 8..41, the floor set held the same 8
identities on every post-spawn frame. The purple wedge SHAPE stays - it
is cdb-proven retail-faithful.
Residual deviation (AP-85 rewritten): single 128 pool vs retail's
7-dynamic/40-static degrade-scaled dual pools - the Hub now shows
7 purples + viewer where retail's cdb showed 4 + viewer + fixture slots;
if the gate reads the wedge as too purple, the A7 dual-pool cap is the
faithful trim.
Pins: PointSnapshot_HubScaleLightCount_ObjectSelectionIsCameraInvariant
(rewritten to the corrected model),
PointSnapshot_OverCap_DynamicsNeverEvictedByNearerStatics,
PointSnapshot_OverCap_KeepsNearestThePlayer,
PointSnapshot_ResidentCollection_CellTagDoesNotFilter.
Suites: Core 2599+2skip / App 726+2skip / UI 425 / Net 385.
The [seam-*] probes stay until the visual gate passes, then strip.
Correction banner added to 2026-07-06-a7-per-cell-lighting-pseudocode.md;
outcome banner on the z-fight handoff; ISSUES #176 updated.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
cdb trace of LIVE retail (tools/cdb/issue176-floor-light.cdb, binary<->PDB MATCH) PROVED retail
applies ALL its dynamic lights — 4 intensity-100 magenta portal lights (d3dIdx 3-6, falloff 6) +
the viewer fill (d3dIdx 1, 2.25) — as D3D hardware lights to EVERY Facility Hub cell, every frame,
stable. So the faceted purple wedges on the floor are retail-FAITHFUL. acdream did a per-cell
SelectForObject sphere-overlap 8-cap for cells, so the portal set could differ/flip per cell.
- LightManager.SelectForCell (retail minimize_envcell_lighting 0x0054c170): ALL dynamic lights
applied unconditionally (shader range cutoff zeroes non-reaching = D3D hardware range), then
nearest static torches fill remaining slots. Wired into EnvCellRenderer.GetCellLightSet.
Objects keep SelectForObject (minimize_object_lighting). Pins:
SelectForCell_AppliesAllDynamicLights_EvenOutOfReach + _SameDynamicSet_ForCellsFarApart_NoFlap.
- Apparatus: [light-detail] gains owner/cell/dyn (pinned the culprit = 2 portal weenies
0x000F4247/48 in 0x8A020118/19, intensity=100 magenta); CellVertexNormals_SmoothOrFaceted_Dump
(corridor floor uses SMOOTH per-vertex dat normals, not flat); tools/cdb/issue176-floor-light.cdb.
#176 RESIDUAL is NOT this fix. It's a RUNTIME draw z-fight in the seam floor. Eliminated (evidence):
NOT lighting (per-light cap + this both no-change), NOT membership (render cell 0x8A020164 stable
100% of 188k frames / 526 angles, res=None), NOT dat geometry (coplanar sweep empty at z=-6 floor
incl. cell 0164). NEXT = RenderDoc pixel-history. Full handoff + DO-NOT-RETRY:
docs/research/2026-07-06-176-seam-floor-zfight-handoff.md. Suites green: Core 2599 + 2 skip.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Port retail's per-frame light collection: the point-light pool is built from ONLY the
currently-visible cells' lights, matching CObjCell::add_*_to_global_lights
(0x0052b350/0x0052b390) walked over CEnvCell::visible_cell_table (0x0052d410) — not a
flat world-space set capped at 128-nearest-camera.
- LightSource.CellId (retail insert_light arg6 -> RenderLight +0x6c); tagged at both
registration sites from entity.ParentCellId (live weenie fixtures + dat EnvCell statics).
- LightManager.BuildPointLightSnapshot(camPos, visibleCells): a light joins the pool iff
CellId==0 (viewer/global) or its cell is in the flood. 128 cap kept as a now-non-biting
backstop (retail's is 40 static + 7 dynamic, 0x0081ec94/8).
- Threaded via RetailPViewDrawContext.RebuildScopedLights, invoked in DrawInside after the
flood resolves prepareCells and before the draws (renderers select from the same
in-place-rebuilt PointSnapshot; EnvCellRenderer clears its per-cell cache each pass).
- [indoor-light] probe (ACDREAM_PROBE_INDOOR_LIGHT=1) dumps the scoped-pool SET COMPOSITION.
Un-skips LightManagerTests.PointSnapshot_HubScaleLightCount_ObjectSelectionIsCameraInvariant.
CORRECTION: the handoff called the camera-cap the "confirmed" #176/#177 mechanism. The probe
PROVES scoping works (291 Hub fixtures -> pool of 1-9, ~285 through-floor lights dropped/frame,
CellIds match the flood), but the user's VISUAL GATE showed BOTH symptoms unchanged. So pool
composition is NOT the cause. #176 real cause = an over-bright purple point light
(intensity=100, color 0.784,0,0.784 -- from [light-detail]); #177 = a portal-visibility miss
(stairs not drawn looking back). Both stay OPEN. This change is retail-faithful and retires the
camera-eviction latent bug; kept as such, not as the symptom fix. Register AP-85 corrected;
ISSUES #176/#177 re-diagnosed; render digest banner updated.
Decomp: insert_light 0x0054d1b0, minimize_object_lighting 0x0054d480, calc_point_light
0x0059c8b0; pseudocode docs/research/2026-07-06-a7-per-cell-lighting-pseudocode.md.
Suites green: Core 2595 + 2 skip, App 719 + 2 skip.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
The MaxGlobalLights 128->1024 fix (4d25e04d) was live-tested and made
the eviction pops stop — but with the full 366-fixture pool active,
three unported retail lighting semantics dominate the Facility Hub:
(a) lights reach THROUGH solid floors/walls: retail registers lights
per-CELL (insert_light 0x0054d1b0) so the under-room portals'
purple light never touches the corridor above; our flat
sphere-overlap selection has no reach/occlusion notion — rooms
washed magenta (user screenshot).
(b) stationary weenie fixtures ride the DYNAMIC 1/d falloff (~9x
retail's static 1/d3 bake curve at 3m) — the #143 isDynamic
assignment is wrong for ACE-served world fixtures.
(c) an unexplained striped z-fight-like artifact on lit floor regions
(user screenshot; no coincident dat geometry — the coplanar-pair
sweep came back empty; not a striped texture — all corridor
surfaces are plain Base1Image stone).
Reverted to 128. The cap is now documented as a LOAD-BEARING STOPGAP:
it accidentally approximates per-cell reach by keeping the pool local
to the camera. The #176/#177 root cause (cap eviction popping per-cell
light sets) stays CONFIRMED and fully documented; the real fix is the
A7 dungeon-lighting arc: per-cell light registration + the static
fixture curve + the stripe hunt, THEN uncap. The desired-end-state pin
is kept as Skip with the full pointer. Register row AP-85 rewritten to
match reality; ISSUES #176/#177 back to OPEN with the complete
mechanism story.
Suites: Core 2591+3skip / App 719 green.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Adversarially-verified review findings 7 and 8:
(7) The DatCollection->IDatReaderWriter adapter existed as THREE
near-identical copies (App-internal original, Bake's copy, Content.
Tests' copy) — a structure where adapter drift is exactly what the
live-vs-pak equivalence suite cannot detect (both sides would only
drift together if they shared one implementation). Now ONE public
AcDream.Content.DatCollectionAdapter next to IDatReaderWriter (GL-free
home established in MP1a), carrying App's FULL behavior including the
[dat-miss] TryGet tripwire log (which now also covers the bake tool
and the equivalence suite) and the caching/locking. All three copies
deleted; WbMeshAdapter (App), BakeRunner (Bake), and
PakEquivalenceTests (Content.Tests) resolve the shared class.
Iteration properties return the REAL dat iterations — the App copy's
hardcoded 0 was a stub nothing read; the unification intentionally
keeps truth (noted in the doc comment). Verified post-move: no
Silk.NET anywhere in Content / Bake / Content.Tests / Bake.Tests
resolved dependency graphs.
(8) Two test gaps closed in PakRoundTripTests: (a) direct on-disk TOC
sortedness — blobs added in DESCENDING key order, then the raw file
bytes parsed (not through the reader) and every TOC entry asserted
strictly ascending; (b) corrupt-blob logging — five repeated reads
through both public paths (TryReadObjectMeshData + ContainsKey) with
stderr captured, asserting exactly ONE [pak-corrupt] line for the
victim key.
Full suite: 4120 tests, 0 failures (Content.Tests 56, Bake.Tests 1,
plus the pre-existing 4 skips).
Adversarially-verified review findings 1 and 10:
(1) The bake pipeline no longer accumulates every decoded ObjectMeshData
in one ConcurrentBag before writing (multi-GB OOM risk on the full
bake), and no longer writes blobs in thread-completion order (which
violated the plan's "bakes must be byte-reproducible run-to-run").
New shape in BakeRunner: build the FULL id list, sort by PakKey, chunk
into 512-id batches; Parallel.ForEach WITHIN each batch; sort each
batch's results by key and AddBlob sequentially; release the batch.
Batches are contiguous key ranges, so the blob region lands in global
key order regardless of thread scheduling, and peak memory is one
batch's output. Side-staged particle-preload meshes drain per batch
into a key-deduped map (first instance wins — per-id extraction output
is deterministic, so instance choice cannot affect bytes) and are
written after all batches, sorted by key, skipping keys already
written.
Program.cs is now a thin arg-parsing shell over the public BakeRunner
so the new dat-gated byte-reproducibility test can drive the REAL
pipeline: tests/AcDream.Bake.Tests (new project, rule 6; registered in
slnx; no Silk.NET in its resolved dependency graph — verified) bakes
the same 9-id mixed fixture twice with DIFFERENT thread counts (8 vs
3 — thread scheduling was the nondeterminism source) and asserts the
two pak files are byte-identical. Ran for real against the dats on
this machine: green.
(10) The isSetup argument for EnvCell extraction now matches at both
call sites (BakeRunner and PakEquivalenceTests both pass false) and is
documented at each: the runtime's own request sites
(WbMeshAdapter.IncrementRefCount / EnsureLoaded) pass isSetup: false
for every MeshRef id including cell-geometry ids. The parameter is
currently dead in MeshExtractor.PrepareMeshData (dispatch is on the
resolved dat type), but two disagreeing call sites were a latent trap.
Header FormatVersion is no longer set by the bake (PakWriter stamps it
per review finding 2, previous commit).
Adversarially-verified review findings 2,3,4,5,6,9:
(2) PakFormat.CurrentFormatVersion=1 constant; PakWriter stamps it
unconditionally (caller header templates can no longer produce a
version-0 pak — the default-0 footgun); PakReader refuses any other
version with a message naming found/expected. Tests: versions 0 and 2
both rejected; writer stamps even when the template omits the field.
(3) Reader robustness, all under the documented corrupt-=-missing
CONTRACT (external-file input — surface loudly once, then behave as
absent; never garbage, never throw from a lookup): (a) per-TOC-entry
bounds validation at open (offset/length outside [header, toc) or
past EOF -> logged once, entry missing, siblings unaffected); (b)
TryReadObjectMeshData catches deserialization failures (malformed
structure behind a matching CRC) -> logged once per entry, false; (c)
structurally unopenable files throw at OPEN with a clear message:
unfinalized header (tocOffset < header size — the placeholder-header
crash signature) and TOC-past-EOF truncation. Tests: corrupt TOC
entry, truncated pak, half-written pak, malformed-blob-behind-valid-
CRC (tamper + CRC recompute) — each verifying sibling blobs still read.
(4) Single-pass read: TryReadObjectMeshData now does ONE ReadArray out
of the map; CRC and deserialization run over the same buffer (was: a
separate VerifyCrc traversal + a second ReadArray + a ToArray copy
inside Serializer.Read). New Serializer.Read(byte[]) overload avoids
the defensive copy. Verdict set stays a ConcurrentDictionary (MP1c
calls this from 4 decode workers). True span-over-mmap zero-copy is
deferred to MP1c profiling per the class doc comment.
(5) PakWriter.Dispose restored to try/finally: Finish() does real I/O
and can throw (disk full) — the stream must ALWAYS close so no file
handle leaks mid-unwind. (Reverts the a5926ebc simplification, which
was wrong about this.) Test: dispose after an AddBlob exception leaves
the file deletable.
(6) CRC-32 known-answer vectors: "123456789" -> 0xCBF43926, empty ->
0x00000000, single zero byte -> 0xD202EF8D. The suite was previously
blind to a self-consistent-but-wrong CRC.
(9) Equality comparator floats switched to bit-equality
(SingleToInt32Bits/DoubleToInt64Bits, incl. Vector2/3 + Matrix4x4
components): for byte-identity round-trip purposes `==` was both too
strict (NaN==NaN false — a surviving NaN payload would wrongly FAIL)
and too lax (-0.0==+0.0 true — a sign-bit flip would wrongly PASS).
Content.Tests: 54/54 green (was 43).
The probe launch discriminated it: the user reproduced the purple floor
flash while [light] (ambient branch) and [pv-input] (portal flood) read
provably healthy — eliminating the last CPU-side theories and exposing
the one channel the probes could not see: per-cell 8-light set
composition.
BuildPointLightSnapshot kept the MaxGlobalLights=128 point lights
nearest THE CAMERA; the Facility Hub registers 366 fixtures, so 238
were evicted per frame by camera distance. SelectForObject (faithfully
camera-independent, and unit-pinned as such) could only choose from the
surviving 128 — an in-range torch of a visible cell that ranked past
the cap dropped out of that cell's 8-set, so per-cell Gouraud lighting
flipped as the chase boom swung the camera:
- #176: the flipping unit is a CELL -> discontinuity lines at exactly
cell-seam granularity; a torch-losing floor drops to dim blue-grey
stone at 0.2 ambient (the perceived purple), camera-angle dependent.
- #177: a stair room whose torches all ranked past the cap rendered at
bare 0.2 ambient (near-black = 'not visible'); approach re-admitted
them ('pops into existence'); the sweeping boundary dropped the
ramp's lights mid-descent ('disappears on the last step'). The
geometry never vanished - its lights did.
Retail's minimize_object_lighting (0x0054d480) has NO global
camera-nearest pool cap (lights register per cell, insert_light
0x0054d1b0). Fix: MaxGlobalLights 128 -> 1024, a non-biting safety
valve (GlobalLightPacker grows to fit; 64 B/light). Register row AP-85.
TDD pin: PointSnapshot_HubScaleLightCount_ObjectSelectionIsCameraInvariant
(RED at 128 with a Hub-scale 401-light layout, GREEN at 1024). The
pre-existing camera-independence pin covered the SELECTOR but not the
SNAPSHOT it selects from - the pop re-entered one stage upstream.
Suites: Core 2588 / App 719 / UI 425 / Net 385 green. Pending user gate.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
PakEquivalenceTests runs MeshExtractor LIVE and bakes the SAME fixture
ids to a temp pak, reads it back via PakReader, and deep-compares every
field via the Task 3 ObjectMeshDataEquality comparator. Since the bake
tool and the live client drive the identical MeshExtractor code (MP1a),
this proves the pak ROUND-TRIP preserves what extraction actually
produces on real content — the serializer's job, not a re-verification
of the extraction algorithm itself (the existing Conformance suite owns
that).
Fixture set (>= the plan's minimums): 10 GfxObjs (3 known-tricky ids
reused from Issue119UpNullGfxObjDumpTests - 0x010002B4, 0x010008A8,
0x010014C3 - plus 7 more from dat order), 3 Setups reused from door/
tower conformance fixtures (0x020019FF, 0x020005D8, 0x020003F2), 5
EnvCells walked from the Holtburg landblock 0xA9B40000's
LandBlockInfo.NumCells range (same idiom as
StipplingSurfaceEquivalenceTests).
Skips cleanly when dats are absent via ContentConformanceDats.
ResolveDatDir(), a deliberate small duplicate of
ConformanceDats.ResolveDatDir()'s exact pattern (env var then
Documents/Asheron's Call fallback) since Content.Tests cannot reference
the AcDream.Core.Tests project. ContentTestDatCollectionAdapter is a
third small copy of the IDatReaderWriter dat-access glue (alongside
AcDream.App's internal original and AcDream.Bake's copy) for the same
layering reason (structure rule 6: tests live in the project matching
the layer under test).
Ran for real against the dats on this machine (not just CI-skip path):
1 test, all fixture ids extracted live with zero failures, baked,
read back, and field-for-field identical. Full solution dotnet test:
4106 tests total (43 Content.Tests + 385 Core.Net.Tests + 425
UI.Abstractions.Tests + 722 App.Tests incl. 2 pre-existing skips + 2531
Core.Tests incl. 2 pre-existing skips) — 0 failures.
TDD: PakRoundTripTests written first, confirmed a compile failure
against the not-yet-existing PakWriter/PakReader types.
PakWriter streams [header placeholder][64-byte-aligned blobs][TOC sorted
by key], then seeks back and finalizes the header once TocOffset/TocCount
are known (plan: "TOC last" so the writer doesn't need blob count
up front). PakReader mmaps the whole file once, loads the TOC into a
sorted array for O(log n) binary-search lookup, and verifies each blob's
CRC-32 LAZILY on first access (cached per-index so a corrupt blob logs
exactly once and is thereafter always treated as missing rather than
handing back garbage bytes). No locks anywhere — the mapped memory is
immutable for the reader's lifetime by construction.
CRC-32 implemented directly (standard IEEE 802.3 table-driven variant)
rather than adding a System.IO.Hashing package reference, keeping
AcDream.Content's dependency surface minimal per its existing
"no GL binaries" intent.
9 tests green: header round-trip, every-key-found, blob deep-equality
via the Task 3 comparator, missing-key returns false, corrupted-blob
(single flipped byte) is detected and treated as missing while leaving
sibling blobs unaffected, 64-byte blob alignment, and TOC binary search
cross-checked against a linear scan for both present and absent keys.
The dungeon render pair (purple seam flash + stair pop-in) resisted
desk root-causing, but the investigation narrowed the space to two
live theories and shipped permanent apparatus:
- Issue176177DungeonSeamInspectionTests: dat truth — corridor floors
ARE textured drawn PortalSide portal polys; the reciprocal is NoPos;
the 'stairs' are 0x8A020182's ramp shell (vertical portals, zero
statics); CellBSP partitions exactly at portal planes; DXT1 textures
carry zero transparent-mode texels.
- Issue176177FacilityHubFloodReplayTests: production-matched flood
replays — approach/descent/gaze-sweep/walk all healthy with coherent
inputs; ScenarioE pins the flood's collapse-to-root sensitivity under
incoherent (root, eye) pairs.
- Issue176177SeamTransitLagTests: the resolver flips cells within one
tick-step of the portal plane — the 0.33-0.47m [cell-transit] 'lag'
in the gate logs is speed*tick quantization, not membership error.
Refuted (do NOT retry — ledger in the research doc): placeholder
texture, reciprocal z-fight, seal z-fight (seals only fire for
OtherCellId==0xFFFF), root/eye incoherence (production camera sweep is
mm-exact at planes), flood bistability, #119-class statics, undefined
DXT mips (both paths decode DXT->RGBA8; the compressed-array branch is
dead code), DXT1 alpha, fog mix (ramp ~538m), lightning leak (flash==0
in production), viewer-light pops (smooth (1-d/range) ramp).
Filed #178 (A8 double-sided shell stopgap still live) and #179
(lightning flash lacks an indoor gate — dormant). The purple can only
be the fog clear color (undrawn pixels) or the outdoor ambient+sun
tint; discrimination needs ONE probe launch (ACDREAM_PROBE_LIGHT +
ACDREAM_PROBE_PVINPUT + ACDREAM_PROBE_CELL) — protocol in
docs/research/2026-07-06-176-177-render-pair-investigation.md.
Suites: Core 2587 / App 719 green.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
TDD: ObjectMeshDataSerializerTests + the shared ObjectMeshDataEquality
field-by-field comparator (reused by Task 6's equivalence suite) written
first, confirmed a compile failure against the not-yet-existing
ObjectMeshDataSerializer type.
Serializes EVERY field of the ObjectMeshData family per the plan's
normative layout: primitives raw LE, arrays as count:i32+payload,
blittable arrays (VertexPositionNormalTexture[], ushort[], byte[]) via
MemoryMarshal.AsBytes bulk copy, TextureBatches written sorted by the
(Width, Height, Format) key tuple for run-to-run determinism regardless
of dictionary insertion order, nullable fields as present:byte+value.
EnvCellGeometry nests recursively (MeshExtractor can populate one level
today; the serializer supports arbitrary depth rather than assuming it).
Namespace-trap finding: StagedEmitter.Emitter resolves to
DatReaderWriter.DBObjs.ParticleEmitter (the dat DBObj, verified via
reflection against the pinned Chorizite.DatReaderWriter 2.1.7 package
and confirmed live by MeshExtractor's `emitter.HwGfxObjId.DataId` call
site compiling), NOT AcDream.Core.Vfx.ParticleEmitter (the runtime
particle-simulation type with a live Particle[] pool that would NOT be
serializable asset data). All ~31 of its fields are written explicitly
rather than delegating to its own Pack/Unpack, which require a live
DatBinWriter/DatBinReader bound to a DatDatabase — coupling our pak's
determinism to a third-party wire-format helper we don't control the
versioning of.
33 tests green: 9 round-trip fixtures (empty/vertices+indices/multi
texture-batch-groups/setup-parts/emitters/nullable-present/nullable-
absent/edge-lines/nested-EnvCellGeometry), same-instance-twice byte-
identity, and dictionary-insertion-order-independence (two orders ->
identical bytes) plus a key-sort-order assertion on the raw bytes.
TDD: PakKeyTests + PakFormatTests written first (confirmed a compile
failure against the not-yet-existing AcDream.Content.Pak namespace),
then PakKey (64-bit type:u8|fileId:u32|reserved:u24 compose/decompose)
and PakFormat (64-byte PakHeader, 24-byte PakTocEntry) implemented to
the normative layout in the MP1b plan. 21 tests green, including a key-
ordering test proving ascending numeric key order equals ascending
(type, fileId) tuple order (the TOC binary-search precondition) and an
explicit byte-offset test for both structs.
New xunit test project for the Content layer (rule 6: tests live in the
project matching the layer under test). ProjectReference to
AcDream.Content; TreatWarningsAsErrors + LangVersion latest per MP1b's
csproj requirements. Registered in AcDream.slnx. Placeholder PakKeyTests
smoke test becomes the real Task 2 suite next.
Coordinator-directed final cleanup before the user gate; none behavioral:
1. MeshExtractor public surface narrowed to the cross-assembly entry
points App actually calls (PrepareMeshData, PrepareCellStructMeshData,
CollectParts, ComputeBounds); PrepareSetupMeshData,
CollectEmittersFromScript, PrepareGfxObjMeshData,
PrepareEnvCellMeshData, PrepareCellStructEdgeLineData back to private
(internal dispatch, only reached via PrepareMeshData).
2. sideStagedSink constructor parameter is now REQUIRED (no default;
type stays nullable for a conscious null): a bake tool that forgot
the sink would silently lose particle-preload meshes.
3. AcDream.Content.csproj gains TreatWarningsAsErrors + LangVersion
latest (parity with AcDream.Core.csproj). Surfaced zero warnings.
4. Dead usings removed from ObjectMeshManager.cs (BCnEncoder.*,
SixLabors.*) — the inline decode moved out in Task 4.
5. Doc fixes: ObjectMeshData.cs cross-assembly <see cref> ->
plain text (Content can't resolve App types); IDatReaderWriter.cs
stale Phase O-T7 'both in this namespace' sentence rewritten.
6. Stale test doc comments updated to MeshExtractor.PrepareGfxObjMeshData
(StipplingSurfaceEquivalenceTests, Issue119UpNullGfxObjDumpTests) —
comments only, no code/assertion changes.
dotnet build green (0 warnings in Content under warnings-as-errors);
full test suite 4059 passed / 0 failed / 4 skipped.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
The 'run into the last corridor window and pop up through its roof'
report: the live callers passed sphereHeight: 1.2f into
SpherePath.InitPath, whose head-sphere formula (height - radius) put the
head sphere center at 0.72 - the capsule top at 1.2m. The top 0.63m of a
1.83m character had NO collision, so at the corridor-end window alcove
(0x8A020179 -> 0x8A02017E: 0.70m sill face, 1.3m opening, sloped funnel
behind) the step-up's placement never saw the head overlapping the
lintel solids and let the player climb in head-through-roof.
Dat truth (HumanSetup_CollisionSpheres_DatTruth): Setup 0x02000001
spheres = (0,0,0.475) r=0.48 and (0,0,1.350) r=0.48 - capsule top 1.83 =
Setup.Height 1.835. Retail collides with that sphere list verbatim
(CPhysicsObj::transition 0x00512dc0 -> init_sphere(GetNumSphere,
GetSphere, m_scale)).
Fix: PlayerMovementController + the GameWindow remote resolve now pass
sphereHeight: 1.835f (capsule top; head center 1.355 vs dat 1.350).
InitPath unchanged - captured-input replay fixtures (recorded 1.2
inputs) stay byte-identical. Register TS-46: the (radius, capsule-top)
scalar approximation of the Setup sphere list (5mm foot/head offsets;
remotes use human dims) with the retire path (plumb the sphere list).
Pins: WindowOpening_HeadCannotFit_EntryBlocked (22-frame walked approach
wall-slides at the sill, never enters 0x8A02017E) +
WindowAlcove_RaisedPlacement_HeadInLintelSolid_Collides (Path-1
placement rejects the raised head in the lintel solids) + the
WindowShaft_FullPolyDump / HumanSetup dat inspections.
Suites: Core 2562 / App 713 / UI 425 / Net 385, 0 failures.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Three review finds, all in the runtime-toggle path or edge math (the
steady-state path was confirmed correct):
1. GPU stale-slot across toggle-off/on: the disabled branch now
Disposes the GpuFrameTimer (and nulls it) instead of Stop()-ing and
keeping it — a kept instance would poll slots left pending from
BEFORE the pause on re-enable and report temporally stale GPU
samples. The re-enable branch's existing null guard rebuilds the
ring fresh. Dispose is safe there: the branch runs at the top of
OnRender with the GL context current.
2. Stale stage accumulation across mid-stage toggle-off: a StageScope
disposed after the flag flips still calls EndStage, leaving a
partial delta in _stageAccumTicks. The re-baseline branch now
Array.Clear()s it alongside the GC re-baselining.
3. FrameStatsBuffer.Max() seeded with 0, clamping all-negative windows
(the alloc channel can go negative if the boundary ever crosses
threads) and disagreeing with Percentile(). Now seeds from the
first live sample after the empty check (slots [0.._count) are
always the live window regardless of ring wraparound); empty still
returns 0 to match Percentile. TDD: Max_AllNegative_ReturnsTrueMax
failed (returned 0) before the fix, passes after.
Co-Authored-By: Claude Sonnet 5 <noreply@anthropic.com>
The plan's FormatReport_IsInvariantAndComplete test ends with a
DoesNotContain(",0") guard (after stripping the gc=3/1/0 token) proving
the formatter emits period decimals regardless of the host culture.
It was dropped in the Task 3 commit; restored verbatim. Passes as-is —
FormatReport already uses CultureInfo.InvariantCulture throughout.
Co-Authored-By: Claude Sonnet 5 <noreply@anthropic.com>
The P2 cellar-lip lesson one loop deeper. CheckOtherCells takes footCenter
by value and used it for every cell in the loop — but a mid-loop query can
MOVE the sphere: at the Facility Hub cell boundaries the neighbor's ramp
floor full-hits, step_sphere_up climbs the foot +0.6mm and returns OK, and
the loop continued querying the REMAINING cells (including the under-room,
portal-ring-3) at the pre-climb height — 0.4mm inside the double-faced
floor slab, grazing its underside (the under-room's ceiling) within the
near-miss window. That dispatched a neg-poly step-up with a DOWNWARD
normal, whose failure funneled into slide_sphere's opposing branch ->
synthetic reversed-movement collision -> Collided -> revert, every frame:
the seam shake (and, pre-mechanism-2-fix, the original absorbing wedge's
entry).
Retail check_other_cells reads the LIVE sphere_path.global_sphere for
every cell (each cell's find_collisions receives the transition itself,
pc:272717+). Fix: re-read footCenter = sp.GlobalSphere[0].Origin at the
top of each loop iteration.
All three Issue137CorridorSeamReplayTests repros un-skipped: the
snapshot-exact west-boundary crossing (capture tick 4101), the east
deep-straddle, and the clean-run lifecycle all GREEN. Full suites: Core
2556 / App 713 / UI 425 / Net 385, 0 failures.
Visual gate pending: corridor run + the purple seam flashing re-check
(expected to be the render exposing the same per-frame oscillation).
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Permanent frame profiler: FrameBoundary() at the top of OnRender measures
CPU frame time (swap-to-swap delta), brackets the frame in a GpuFrameTimer
TimeElapsed query (self-disabled under ACDREAM_WB_DIAG=1), and samples
per-frame allocated bytes + GC collection deltas. BeginStage(FrameStage)
scopes attribute CPU time to Update/Upload/ImGui. Emits one [frame-prof]
report line every ~5s while RenderingDiagnostics.FrameProfEnabled is on;
zero-cost stage scopes when off. Report formatting is a pure static
method, unit-tested for invariant-culture formatting and the gpu=off
fallback text.
Co-Authored-By: Claude Sonnet 5 <noreply@anthropic.com>
Fixed-capacity ring buffer of long samples with nearest-rank percentile
and max over the current window. Pure, allocation-free after
construction. Foundation for the MP0 frame profiler
(docs/superpowers/specs/2026-07-05-modern-pipeline-design.md).
Co-Authored-By: Claude Sonnet 5 <noreply@anthropic.com>
The corridor gate FAILED with a changed symptom: shaking at cell seams
(+ purple floor flashing there) instead of the dead stop. Deep-probe
session (step-walk/push-back/indoor-bsp + full resolve capture) traced
the complete chain; docs/ISSUES.md #137 carries it. Short form:
- Corridor floors are double-faced portal slabs over under-rooms; the
resting foot sphere lives within half a millimeter of three hit/straddle
thresholds there.
- Crossing a boundary, the foot penetrates the neighbor ramp slab by
~0.4mm, steps up onto it successfully (+0.6mm lift, stepped=True) —
and the lifted check position is then LOST: the following pass runs at
the unlifted height (the P2 stale-snapshot class; retail step_up
0x0050b6cc restores only on FAILURE).
- The unlifted re-test grazes the under-room's ceiling (the slab
underside) within the near-miss window, dispatches a neg-poly step-up
with a DOWNWARD normal, whose nested step-down finds no walkable at
exact tangency -> StepUpSlide -> slide_sphere opposing branch ->
reversed-movement collision -> Collided -> revert. Every frame = shake.
Apparatus committed:
- Issue137CorridorSeamReplayTests: 3 deterministic offline repros
(snapshot-exact west-boundary from the capture, east deep-straddle,
the clean-run pin), currently Skip='#137 seam shake' pending the fix.
Key: THREE portal-ring hydration (the under-room 0x8A020166 is ring-3;
with fewer rings the flood can't add it and the bug vanishes) + live
Setup step heights (0.6/1.5) + probe-buffer capture for line-diffing
offline vs live traces.
- Issue137CorridorSeamInspectionTests: portal-poly world spans (exposed
the visual-vs-physics polygon-id conflation and the floor-portal
topology), physics-BSP leaf membership walk, hit-normal candidate
sweep (|align| both windings), downward-poly sweep.
NEXT: read TransitionalInsert's attempt loop against retail 0x0050b6f0,
find the restore that clobbers the successful step-up position, fix,
un-skip. The purple seam flashing is expected to be the render exposing
the same per-frame oscillation - re-check after the physics fix.
Suites: Core 2553 / App 713 / UI 425 / Net 385, 0 failures (5 skips =
2 pre-existing + the 3 parked repros).
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
The mechanism-1 theory (PortalSide portal polys solid in our physics set)
is REFUTED for the corridor repro, and the remaining half of the phantom
is fixed — no cdb session needed:
- The live hit normal (-1.00,0.03,-0.03) matches NO dat polygon: a
world-space sweep of both seam cells + every portal-adjacent neighbor
(CorridorSeam_FindPolygonMatchingLiveHit) returns zero candidates. The
normal is the negated movement direction — the SYNTHETIC value
slide_sphere's opposing-normals branch records (reversed = -gDelta).
- Cell 0x8A02016E has IDENTITY rotation (the prior session's 'rotation
maps the portal planes into the -X wall' was a misattribution). The
PortalSide polys to 0x011E are +-Y planes 1.4 m beside the player's
track, perpendicular to the +X run — pos_hits_sphere's directional
cull rejects them for that movement. They ARE referenced by the dat's
physics-BSP leaves (CorridorCell_PhysicsBspLeafMembership), so retail
tests them too when approached into their plane; the dat's
keep-PortalSide / strip-ExactMatch asymmetry reads as intentional
(solid window/grate-class portals). No portal-poly filter — exactly
the blanket-skip the pickup warned against.
- Port fix: CSphere::slide_sphere's opposing-normals branch
(0x005375d7-0x0053762c) records the reversed displacement and returns
COLLIDED_TS; our port returned OK ('retail returns OK here' was a
decomp misread), letting the step complete as-is with the synthetic
collision normal that validate's epilogue then persisted as the
sliding normal the wedge absorbed on. TransitionTypes opposing branch
now returns Collided; pinned by
SlideSphere_OpposingNormals_ReturnsCollided_WithReversedDisplacementNormal
(RED->GREEN).
- Dat-backed replay (Issue137CorridorSeamReplayTests) reproduces the
live hit frame verbatim (same in/out to the millimeter, same 016E->017A
transit, same +8mm settle) and runs the corridor CLEAN: hit=no, no
sliding normal persisted, six further forward frames advance freely.
- Inspection tests extended: physics-BSP leaf membership walk +
hit-normal candidate sweep + downward-poly sweep (all report-style,
dat-gated). Pickup prompt banner'd SUPERSEDED; ISSUES #137 updated
(door half stays open); audit doc extended with the resolution.
Suites: Core 2551 / App 713 / UI 425 / Net 385, 0 failures.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
The Facility Hub corridor dead-stop's second half: after one seam hit,
every forward resolve returned ok=False hit=no with zero advance. The
body-persisted SlidingNormal (-1,0,0) projected the exactly-anti-parallel
corridor push to zero in AdjustOffset and the step loop aborted at step 0
before any collision test could refresh the state.
Audit (docs/research/2026-07-06-137-sliding-normal-lifecycle-audit.md):
retail's only in-transition sliding-normal writer is validate_transition
(0x0050ac21); the whole sphere/BSP layer writes NONE (grep-verified), and
the body persistence (SetPositionInternal 0x005154c2, SLIDING_TS bit sync
0x005154e1) runs only on transition success. Our BSPQuery Contact-branch
full-hit responses were stubs (SetCollisionNormal + SetSlidingNormal +
return Slid) where retail dispatches the real slide_sphere — so the seam
hit (a SUCCESSFUL full-advance resolve per the live log) persisted the
phantom wall's normal, which retail's lifecycle structurally cannot do.
- BSPQuery Contact foot full-hit fallback + head full-hit now route
through Transition.SlideSphereInternal (CSphere::slide_sphere
0x00537440 — in-frame slide, no sliding-normal write; ACE
BSPTree.cs:202,310-316). The dead stub is rewritten as the faithful
BSPTREE::slide_sphere wrapper.
- PhysicsEngine sliding writeback gated on ok (retail success-only
placement; behaviorally latent, removes the failed-frame leak class).
- Register: TS-4 amended (Path-6 steep-tangent sites still write the
normal — now documented), TS-45 added (SphereCollision's write — same
leak class, left for a follow-up out of #171's blast radius).
- Pins: Issue137SlidingNormalLifecycleTests — both site pins RED->GREEN,
plus the retail persist/absorb/clear wall lifecycle (validate-write
persistence, faithful absorbed anti-parallel frame, oblique escape
clears the bit). BSPQueryTests full-hit pin updated to the real slide.
Mechanism 1 (PortalSide portal polys solid in the physics set) stays
OPEN - #137 not closed; the corridor re-test rides that session.
Suites: Core 2545 / App 713 / UI 425 / Net 385, 0 failures.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Facility Hub corridor repro (probe + dat evidence, both mechanisms
pinned):
1. PortalSide portal polygons live IN CellStruct.PhysicsPolygons and
acdream collides with them as plain solid geometry. Cell
0x8A02016E's portals to 0x011E (polys 1/3/5, flags=PortalSide) are
present in the physics set while every ExactMatch portal in the
same cell is absent — the cell's rotation maps those portal planes
to the world -X wall the player hit mid-corridor
(launch-175-verify2.log:42858, n=(-1,0,0)). Retail must honor the
portal side; oracle grep required before fixing.
2. After the single seam hit, the body-persisted SlidingNormal
projects every subsequent forward offset to exactly zero in
AdjustOffset - the step aborts BEFORE any collision test can
update state (ok=False hit=no, zero advance), an absorbing wedge
escaped only by strafing ("push through on the side"). The #116
slide-response family: retail re-derives slide state per frame
(get_object_info pc:279992).
Inspection fixture: Issue137CorridorSeamInspectionTests (dumps
physics-vs-portal polygon membership for the two corridor cells).
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
The shipped derivation looked up mt.Cycles[DefaultStyle]; the dat
Cycles dictionary is keyed by the COMBINED (style << 16) | substate
word (CMotionTable.cs:683), so the lookup always missed and the pose
override silently fell back to placement frames — user re-test: "175
is not fixed". The pins covered the override plumbing but not the
derivation, the one part with no offline fixture.
Extract the derivation to Core as MotionTablePose.DefaultStatePartFrames
using the retail SetDefaultState chain (StyleDefaults[DefaultStyle] ->
combined-key LookupCycle, same wrap arithmetic as CMotionTable.cs:683)
and pin it against the REAL dat (human MT 0x09000001 resolves a
34-part pose — this test fails on the old key math). Short poses now
apply PER PART (ShadowShapeBuilder already falls back per index) so a
door anim posing only the panels still overrides them while the
BSP-less header keeps its placement frame. [shape-pose] diagnostic
(ACDREAM_DUMP_MOTION) prints mt id + resolved part0 pose per BSP
registration so live launches show the actual outcome.
Suites: Core 2540 / App 713 / UI 425 / Net 385 green.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
The Facility Hub double door (Setup 0x02000C9D) embeds the player into
the visual panel from one side and blocks with a phantom slab on the
other: its Setup PLACEMENT frames pose the two panels AJAR (yaw
-150/-30 deg, 0.44 m behind the doorway plane — dat-confirmed by the
Issue175 inspection) while the rendered door poses them CLOSED from
the wire-supplied motion table via the sequencer. ShadowShapeBuilder
read placement frames, so the 1.66x0.29x2.95 m physics slabs
registered at the ajar pose. Retail tests each part's LIVE
CPhysicsPart pose — for an idle door, the motion table's default
(closed) state.
Fix: ShadowShapeBuilder.FromSetup gains partPoseOverride (BSP part
shapes only); RegisterServerEntityCollision derives it from the spawn
MotionTableId via GameWindow.MotionTableDefaultPose (default style ->
first cycle -> LowFrame part frames). Null/short poses fall back
per-part to placement frames — table-less entities and landblock
statics unchanged. One-shot snapshot vs retail's per-frame live pose
is register row AP-84 (equivalent for the door lifecycle: closed ==
default pose; open == ETHEREAL bypasses collision, #150).
Pins: FromSetup_PartPoseOverride_ReplacesPlacementFrames /
_NoOverride_KeepsPlacementFrames / _ShortOverride_FallsBackPerPart.
Suites: Core 2539 / App 713 / UI 425 / Net 385 green.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
User report at the Facility Hub double door (Setup 0x02000C9D): embed
into the visual panel from one side, phantom wall on the other. Dat
inspection (Issue175HubDoorPoseInspectionTests, kept as the evidence
fixture) confirms the mechanism: the Setup's Default PLACEMENT frames
pose the two panels AJAR (yaw -150/-30, origin (+-0.88, -0.44, 1.37))
while the rendered door poses them CLOSED from the wire-supplied
motion table via the sequencer. ShadowShapeBuilder reads placement
frames, so the 1.66x0.29x2.95 m physics slabs register at the ajar
pose — displaced behind the visual door. Retail tests each part's
LIVE pose (closed == motion-table default; the open swing is ETHEREAL,
#150). Fix shape filed: BSP shadow shapes for sequencer-bearing
entities must use the sequencer's part transforms, placement frames
only as the no-animation fallback. Holtburg's single door never
surfaced this because its placement pose ~= closed pose.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Retail CPhysicsObj::RemoveLinkAnimations (0x0050fe20) is a tailcall to
CPartArray::HandleEnterWorld (0x00517d70) -> MotionTableManager::
HandleEnterWorld (0x0051bdd0): remove_all_link_animations PLUS a full
pending_animations drain (while (head) AnimationDone(0)), each pop
relaying MotionDone so CMotionInterp pops its pending_motions node in
lockstep. acdream bound the seam to the bare sequence strip, so every
jump's LeaveGround removed the animations that queued manager nodes
were counting down on — orphaning them (NumAnims>0, anims gone) and
permanently damming BOTH queues. MotionsPending() then never drained
(probe round: last player pending=False at the first MovementJump
press; old jump motions still completing at rest minutes later) and
BeginTurnToHeading/BeginMoveForward's verbatim motions_pending gates
starved every armed moveto: ACE's mt-6 walk-to-door armed but the body
never walked (wire-proven, seqs 98-101); the close-range use turn
never completed so the deferred action was silently eaten. Doors only
worked on a fresh session (shallow queue).
Rebind both production sites (remote EnsureRemoteMotionBindings +
the player's EnterPlayerModeNow block) to Manager.HandleEnterWorld();
the sequencer wrapper was a pure passthrough so the manager call is a
strict superset. All six interp seam sites (LeaveGround, HitGround,
Dead, and the detached-object guards) are the same retail chain.
Harness mirrors updated; pins: Issue174LinkStripDrainTests (the seam
drains both queues; fresh motions queue and complete after). Suites:
Core 2535 / App 713 / UI 425 / Net 385 green.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
The Holtburg town-network portal platform (stab 0xC0A9B465, Setup
0x020019E3, CylSphere r=2.597m h=0.256m) blocked the player with an
endless rim slide instead of retail's step-up-onto-top — gating the
whole #137 dungeon repro. Surfaced when #149 started registering
BSP-less stab CylSpheres: the collision SHAPE became right while the
RESPONSE was still the hand-rolled AP-6 approximation (step-up gate +
radial wall-slide only).
Root cause: no cylinder-TOP support anywhere. DoStepUp's internal
step-down probe needs retail's step_sphere_down (0x0053a9b0) to land on
the flat top — a cylinder has no polygons for the walkable search — so
every step-up onto a wide cylinder failed into StepUpSlide and the
player orbited the rim (probe-confirmed: [cyl-test] result=Slid with
horizontal rim normals, launch-137-repro.log).
Port the full family verbatim: dispatcher intersects_sphere 0x0053b440
(placement/ethereal detection, step-down cap landing, walkable probe,
grounded step_sphere_up 0x0053b310, PathClipped collide_with_point
0x0053acb0, airborne land_on_cylinder 0x0053b3d0, Collide-flag
exact-TOI cap rest) + collides_with_sphere 0x0053a880 +
normal_of_collision 0x0053ab50 + slide_sphere 0x0053b2a0. Pseudocode +
settled BN x87 ambiguities (via ACE cross-ref) + two ACE bugs found and
NOT copied (head-slide foot-disp; see doc §8):
docs/research/2026-07-05-ccylsphere-collision-family-pseudocode.md
Ethereal cylinders now flow through retail's Layer-2 override
(pc:276961) instead of the early-OK consume — same net #150 behavior,
plus retail placement-blocked-by-cylinder semantics. SlideSphere gains
a sphereNum param (retail slides the head sphere by its own
displacement, 0x0053b843).
Register: AP-6 retired; AP-83 added (PerfectClip TOI tail decoded per
ACE, dead code until missiles). Tests: CylSphereFamilyTests (grounded
step-up onto the exact platform shape, tall-cylinder block, airborne
top landing, ethereal guard); the #42 self-shadow control assertion
updated to the retail observable (denied movement — the old ~1m radial
self-push was the approximation's artifact, not retail). Suites: Core
2533 / App 713 / UI 425 / Net 385 green.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Structural capstone of the R5 movement-manager arc; zero behavior change.
Retail MovementManager (acclient.h /* 3463 */, 16 bytes / four pointers)
gives every CPhysicsObj ONE owner for its motion_interpreter +
moveto_manager. acdream carried them as loose per-entity objects wired by
hand at three sites. This slice:
- New src/AcDream.Core/Physics/Motion/MovementManager.cs — owns
MotionInterpreter + lazy MoveToManager (MakeMoveToManager 0x00524000 via
a MoveToFactory closure, the acdream stand-in for the physics_obj/
weenie_obj backpointers) + the relays with retail call shapes:
PerformMovement 0x005240d0 (types 1-5 -> minterp, 6-9 ->
MakeMoveToManager + moveto, (type-1)>8 -> 0x47), UseTime 0x005242f0
(moveto only), HitGround 0x00524300 (minterp FIRST then moveto),
HandleExitWorld 0x00524350 (minterp only), CancelMoveTo 0x005241b0,
HandleUpdateTarget 0x00524790, IsMovingTo 0x00524260.
- RemoteMotion.Movement + PlayerMovementController.Movement hold the ONE
facade; Motion/MoveTo become child views so the comment-dense call sites
read unchanged. The three wiring sites (EnsureRemoteMotionBindings,
EnterPlayerModeNow, the chase harness — same commit per the mirror rule)
construct through MoveToFactory + MakeMoveToManager(), preserving the
pre-facade eager timing (side-effect-free ctor = unobservable either way).
- Relay call sites repointed: both remote landing HitGround pairs + the
player landing pair, despawn HandleExitWorld, TickRemoteMoveTo + the
player Update UseTime, RouteServerMoveTo (takes the facade; routes via
the retail PerformMovement dispatch), InstallSpeculativeTurnToTarget,
host HandleUpdateTarget/InterruptCurrentMovement closures (retail
CPhysicsObj::HandleUpdateTarget @0x00512bf0 fan head + the TS-36
interrupt chain, now the literal facade relays).
- NOT absorbed per the slice spec: unpack_movement stays App
(RouteServerMoveTo + UM heads; Core.Net types stay out of Core.Physics);
TS-42 per-tick order untouched (R6); #170/#171 gate-passed machinery
untouched. PerformMovement's set_active(1) head not re-asserted (spawn
asserts Active; status quo — no new register row).
- Register: TS-41/TS-42 source wording freshened to the facade shape;
AD-36 retire note corrected (facade half closed; residue = entities
that never get a RemoteMotion). No new rows.
- Conformance: 15 new MovementManagerTests pin the dispatch table, lazy
create, relay targets/order, null tolerance. Suite 4052 green; the
183-case/funnel/moveto/chase/sticky suites UNMODIFIED (harness
construction mirrors production, test bodies untouched).
Decomp: docs/research/2026-07-03-r5-managers/r5-movementmanager-decomp.md
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Three unpack_movement parity items (facade deferred per the handoff's
own optional clause — see r5-wiring-handoff §V4 status):
1. HEAD style-on-change (0x00524440 @00524502-0052452c): both GameWindow
routing heads (remote + player) now dispatch DoMotion(style, ctor
defaults) when the UM's stance differs from the interp's current
style, BEFORE the movement-type routing — for EVERY type. Previously
style applied only through the mt-0 funnel copy, so a chase/turn UM
(mt 6-9) carrying a stance change started the move in the OLD stance
(a monster charged in NonCombat posture until the next mt-0). The
RetailObserverTraceConformanceTests exclusion note updated — the
trace filter stays (head calls can't appear in a
MoveToInterpretedState replay) but the production gap it pointed at
is closed.
2. #164 (closes): the action-replay loop threads each action's autonomy
into the dispatch params (Autonomous = the 0x1000 splice, raw
305982) — replayed actions enter the interpreted actions list with
their real autonomy instead of ctor-default false.
3. mt-0 wire flags consumed (UpdateMotion parsed them since R4-V3):
0x1 StickToObject → CPhysicsObj::stick_to_object port (0x005127e0:
resolve target, PartArray radii — 0 when shapeless, guid-as-is for
acdream's flat entity table — → PositionManager.StickTo; unresolvable
target → no stick), at BOTH case-0 tails in retail order
(@00524583-0052458e: funnel apply → stick → longjump flag);
0x2 StandingLongJump → Motion.StandingLongJump, UNCONDITIONAL write
(absent flag clears — retail @0052458e). ServerMotionState gains the
StandingLongJump field.
Conformance: ChaseArm_WithStanceChange_AppliesStanceBeforeTheChase
(harness mirrors the routing-head dispatch) +
Actions_ReplayCarriesAutonomyIntoTheInterpretedList. Suite 4041 green.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Gate 2: pack behavior good except "sometimes the monster is in the
character / too close vs retail". The ACDREAM_PROBE_STICKY capture
nailed it frame-by-frame: 1661 deep-overlap AdjustOffset ticks, ALL
steering inward (dist -0.65 -> -0.78 -> ... -> -1.9 at +0.13/tick),
monsters converging to centerDist~0 — while the suppressed-snap lines
show ACE's authoritative positions stayed properly OUTSIDE (drift up to
7.7 m). The radii were correct (tgtR=0.68, ownR=0.59-0.98).
Root cause: ACE's literal decode of StickyManager::adjust_offset
(`if (delta >= |dist|) delta = dist;`) leaves delta POSITIVE when the
overlap exceeds one tick's step — steering TOWARD the target center, a
runaway whose equilibrium is centers-coincident. ACE servers virtually
never reach that branch (quantum >=1/30 -> threshold ~1 m); at
render-rate quanta the threshold is ~0.13 m and pack jostle trips it
constantly. The BN mush (0x00555554-0x00555597) is unreadable on
exactly this compare; the retail oracle (side-by-side on the same ACE:
monsters separate) refutes the ACE-literal reading.
Pin: sign-correct clamp — `else if (dist < 0) delta = -delta` (back off
rate-limited). Identical to ACE-literal in every shallow/outside case.
Register row AP-82 (same commit) with the cdb verification note.
Conformance: StickyManagerTests.AdjustOffset_DeepOverlap_BacksOff_
RateLimited. Full suite 4039 green.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Group-melee interpenetration + facing drift: the R5-V1-ported
StickyManager/PositionManager were Core-only — the StickTo/Unstick seams
were unbound and every arrival radius was 0, so ACE's Sticky|UseSpheres
melee chases closed ~one body-radius too deep and froze at stale arrival
poses until the next wire re-arm. Retires TS-39.
Wiring (anchors re-verified against the named decomp this session):
- EntityPhysicsHost owns a PositionManager; HandleUpdateTarget fans
MoveToManager then PositionManager (CPhysicsObj::HandleUpdateTarget
0x00512bc0 order).
- Seams bound remote + player: MoveToManager.StickTo (BeginNextNode
sticky arrival @0x00529d3a), Unstick (PerformMovement head), and
MotionInterpreter.UnstickFromObject (UM funnel head, 0x0050eaea).
- AdjustOffset at the retail UpdatePositionInternal slot (@0x00512d0e):
NPC branch composes pre-sweep (steer is swept by ResolveWithTransition);
remote-player branch chains the combiner offset through the shared
delta frame (the interp stage) so sticky OVERWRITES when armed
(0x00555430 assigns m_fOrigin, not accumulates); player inside the
30 Hz physics quantum before UpdatePhysicsInternal.
- UseTime (the 1 s lease watchdog) at the UpdateObjectInternal tail
(@0x005159b3): unconditional per remote; player gated on the physics
tick (retail's MinQuantum gate skips UseTime too).
- Real setup cylsphere radii (CPartArray::GetRadius/GetHeight
0x005180a0/0x005180b0 = setup radius/height x ObjScale from the spawn
record): own via EnsureRemoteMotionBindings + player wiring; target via
RouteServerMoveTo AND the speculative use-walk install (retail resolves
the target PartArray at EVERY MoveToObject site — ACE PhysicsObj.cs:951).
- Teardown parity: exit_world (0x00514e60) UnStick + ClearTarget before
the ExitWorld notify; player teleport fires teleport_hook's tail
(UnStick in SetPosition + EntityPhysicsHost.NotifyTeleported =
ClearTarget + NotifyVoyeurOfEvent(Teleported) @0x00514f1b) so mobs
stuck to the player drop their sticks on a recall.
- SERVERVEL arbitration also yields to a stuck entity (same starvation
class as the #170 fix — sticky owns the between-snap translation).
- StickyManager.UseTime aligned to retail's strict > deadline
(0x00555626; ACE >): two V1 tests had pinned the >= edge — corrected.
Register: TS-39 deleted; TS-41 narrowed (stickyArmed gate); TS-43 added
(remote teleport_hook gap — self-corrects within the 1 s lease); AP-23
narrowed (real radii at the speculative site; only the use-radius
buckets remain invented).
Conformance: 2 new full-stack sticky scenarios in
RemoteChaseEndToEndHarnessTests (arrive -> stick -> strafing-target
gap+facing track -> lease expiry; unstick-on-rearm -> re-stick).
Full suite 4038 green.
Pre-commit adversarial diff review (3 lenses + per-finding refuters)
confirmed and fixed 4 findings: ObjScale-dead radius read, player
UseTime order inversion, missing teleport voyeur notify, speculative-
site radius asymmetry.
Awaiting the user visual gate: pack melee side-by-side vs retail
(attackers reshuffle + keep facing; some overlap is ACE-server-side).
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
The "sustain the run" residual. The handoff's "Ready stop-node backlog
drains a beat slower than retail" framing was DISPROVEN: a new full-stack
offline harness (RemoteChaseEndToEndHarnessTests — real MoveToManager +
MotionInterpreter + AnimationSequencer + MotionTableDispatchSink + the
manual omega integration, wired field-for-field like
EnsureRemoteMotionBindings and ticked in TickAnimations' exact phase
order) proves the Core turn/run/drain pipeline healthy: the chase turn
completes in <1 s both directions, BeginMoveForward installs per arm, the
run sustains across re-arms and attack swings, and pending_motions fully
empties (retail cdb invariant add_to_queue == MotionDone).
The real mechanism (launch-drainq.log, corrected per-guid attribution —
the previous session's timeline mis-attributed [mvto] lines that fire in
the network phase): funnel per chasing scamp was 16 mt-6 arms -> 11
dispatched turns -> ONE BeginMoveForward. Any NPC receiving
UpdatePositions gets HasServerVelocity=true (synthesized from position
deltas even when the wire carries no velocity), and the grounded per-tick
branch routed those to the SERVERVEL leg, which SKIPS
MoveToManager.UseTime — [npc-tick] literally logged
"branch=SERVERVEL (skips UseTime) mtState=MoveToObject". The armed
moveto was starved for exactly the duration of the server-side chase:
legs stayed in Ready while the body glided on synthesized velocity (the
#170 slide); the manager only woke in UP-silent gaps (creature stopped
server-side) and its stale-heading turn was interrupted by the next UM
before reaching BeginMoveForward.
Retail runs MovementManager::UseTime UNCONDITIONALLY every tick
(CPhysicsObj::UpdateObjectInternal 0x005156b0, call @0x00515998) and has
no wire-velocity leg-driver anywhere; between UPs a moveto-driven body
translates from the motion state (get_state_velocity) with UP hard-snaps
correcting drift. Fix: an armed moveto (MovementTypeState != Invalid)
always takes the MOVETO leg; SERVERVEL remains only as the legacy
fallback for entities without a moveto (scripted paths / missiles).
Register: TS-41 (the narrowed SERVERVEL stopgap), TS-42 (drain-order
divergence also pinned this session: acdream drains AnimDone->MotionDone
AFTER HandleTargetting/MoveTo.UseTime; retail's process_hooks
@0x00512d3d runs BEFORE TargetManager/MovementManager in
UpdateObjectInternal — one frame of extra latency, R6 scope).
New conformance: RemoteChaseEndToEndHarnessTests (3 scenarios + theory)
+ RemoteChaseDrainBisectTests (the drain-chain pin; its first run also
demonstrated the TS-40 InWorld=false link-strip wedge shape — harness
bodies must replicate the live RemoteMotion construction).
ISSUES #170 updated (awaiting user visual gate; probes stay until then);
handoff doc superseded-note added.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Root cause (confirmed by a live ACDREAM_DUMP_MOTION capture of Mite Scamp
0x80000244 + the retail decomp): a chasing+attacking creature's attacks arrive
as the ForwardCommand of frequent mt-0 InterpretedMotionState UMs (66 attack UMs
0x62/63/64 vs 2 mt-6 chase MoveTos in the capture). Retail's get_state_velocity
(0x00527d50) computes the body's translation velocity from the current forward
command: WalkForward→3.12×spd, RunForward→4.0×spd, and 0 for everything else
(an attack) — so the creature plants its feet. acdream ALREADY has a faithful
get_state_velocity (returns 0 for a non-locomotion command; cross-checked vs
holtburger grounded_local_velocity's `_ => zero`), but it was never WIRED to the
remote body for entities with an animation sink: apply_current_movement's sink
path (all remotes have a DefaultSink) dispatches the animation and early-returns
BEFORE the set_local_velocity(get_state_velocity()) write, which lives only in
the no-sink fallback (MotionInterpreter ~1702). So a remote NPC's body.Velocity
was never recomputed from its motion state and kept the STALE run velocity from
the last chase — the body dead-reckoned forward at ~4 m/s while playing an
idle+attack pose ("glides after me").
Fix: after apply_current_movement in the grounded remote-NPC dead-reckon path
(GameWindow ~9992, restricted to remotes by serverGuid != player and to grounded
by OnWalkable), refresh rm.Body via set_local_velocity(get_state_velocity()) —
the exact write retail's apply_current_movement performs, reusing the verbatim
ported get_state_velocity. An attack forward command now resolves to 0, so the
creature stops and swings in place; RunForward still yields the run velocity.
Narrowest safe seam: the local player (which also has a sink) is excluded by the
loop's player guard, so its PlayerMovementController velocity path is untouched.
The earlier suspicion (#159 combat-command numbering) was a red herring — the
scamp's 0x62/63/64 were always in the correct block and the planner is unwired;
the wire even carries full attack variety, so "uniform" was the visual artifact
of rapid attacks over a gliding idle base, not a classification bug.
Tests: MotionVelocityPipelineTests.AttackForwardCommand_ZeroVelocity (4 cases)
pins get_state_velocity → 0 for the attack forward commands the fix depends on.
Core suite 2503 green. Visual gate pending (retail side-by-side: creature should
plant + step, not glide).
Ref: docs/research/named-retail get_state_velocity 0x00527d50; ISSUES #170.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>