The paperdoll doll now matches retail: correct held pose, framing, and
facing. Three decomp-sourced fixes closed the visual gate.
Pose: cdb-confirmed m_didAnimation = 0x030003C0 (gmPaperDollUI), played
once + HELD (set_sequence_animation framerate=0, RedressCreature
0x004a3c22). Dumping the dat showed the 29-frame anim has only two
distinct keyframes — frame 0 (transitional, bent arm) and frames 1..28
(byte-identical: the settled stance, arms down + leg back) — so
ApplyPaperdollPose applies the LAST frame statically (no looping).
Camera: ported verbatim from UIElement_Viewport::SetCamera (decomp
0x004a5a39). position (0.12,-2.4,0.88); direction (0,0,0) => IDENTITY
view frame => look straight down +Y, ZERO yaw; FOV pi/4 (CreatureMode
ctor default 0x004543cf); ambient 0.3. The prior hand-tune aimed the
camera at mid-body, adding a ~2deg yaw that turned the doll's face away
— full-body framing comes from eye-height + FOV, not aiming.
Heading: retail Frame::set_heading(h) (0x00535e40) builds facing
(sin h, cos h); System.Numerics CreateFromAxisAngle(+Z, +h) rotates the
body's default +Y forward to (-sin h, cos h) — the X-lean was MIRRORED
(~22deg), the real cause of the turned-away face. Negate the angle to
land on retail's facing.
Wrap-up: stripped the temporary O/P pose-frame stepper + Slice2
diagnostics; divergence register AP-66 reworded, AP-67 (RTT doll render
vs in-cell CreatureMode::Render) + AP-68 (per-race UpdateForRace
unimpl) added; DollCameraTests pinned to the retail values + a zero-yaw
guard. tools/cdb/paperdoll-pose.cdb = the pose-DID capture script.
Build + full suite green (Core 1579 / Core.Net 343 / App 597 / UI 425).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Brings the 134 D.2b UI commits onto the physics/collision development line so
main can fast-forward. Today's #149 (BSP-less static collision) + #150 (open
doors fully passable) + the full collision/streaming/dense-town-FPS arc meet
the paperdoll/inventory work.
# Conflicts:
# docs/ISSUES.md
# docs/architecture/retail-divergence-register.md
An OPEN door (ETHEREAL_PS 0x4 set on Use) still stopped the player with a
residual threshold block after the collision sweep, despite swinging open
visually.
The resolver runs two collision passes per step: the main sweep and a
step-down (foot-sphere "is there floor?") sub-pass. acdream tested the
ethereal door in BOTH; the main pass cleared it (BSPQuery Path 1 + the
Layer-2 override) but the step-down pass had no escape, leaving a Collided
result at the sill -- the "can-sized cylinder on the ground threshold".
Retail's CPhysicsObj::FindObjCollisions (pc:276795-276806) SKIPS an ethereal
target when sphere_path.step_down != 0 -- it only tests it in the main pass.
So an open door is fully passable everywhere; the swung panel's position is
irrelevant (ethereal = no collision; the swing animation is purely visual).
Port that branch verbatim: an ethereal-for-this-test target (target state &
0x4, OR mover-ethereal vs a non-static target) is `continue`d when
sp.StepDown is set.
Live-verified (user confirmed): the door now blocks 0x while open (0x1000C),
still blocks while closed (0x10008); pre-fix it blocked 217x while open.
Core suite green (1595/0).
(An earlier "animate the door collision" theory was wrong and dropped -- if
collision tracked the swung panel you'd bump the panel in its open position,
which retail does not do. The user caught it.)
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Town props placed as landblock stabs whose ONLY collision is a Setup
CylSphere/Sphere (no physics BSP) registered ZERO collision shapes and were
walk-through -- torches, braziers, lamp-posts, candle-stands, posts.
Root: the ISSUES #83 / A1.6 gate `!_isLandblockStab` skipped Setup
cyl/sphere registration for ALL landblock stabs, on the false assumption
"landblock stabs collide via BSP only (retail CBuildingObj)." That
over-broadened -- it also killed collision for BSP-less stabs.
Retail's CPhysicsObj::FindObjCollisions (@0x0050f050) uses binary dispatch:
the object's physics BSP if it HAS one (HAS_PHYSICS_BSP_PS 0x10000), ELSE its
CSetup CylSpheres/Spheres -- never both. Confirmed via live retail cdb on the
Holtburg torch (Setup 0x020005D8 at world (105.99,17.17)): FindObjCollisions
target num_cylsphere=1, cyl h=2.2 -- a cylsphere, exact-matching the dat
(cylSphere r=0.2 h=2.2); the StabList confirms stab[95]=0x020005D8 there.
Fix: gate the Setup cyl/sphere registration on `entityBsp == 0` instead of
stab-ness. Preserves #83's anti-doubling (stab WITH a BSP -> BSP-only) while
restoring collision for BSP-less stabs. Other landblock entities on this path
(scenery -- tree-trunk cylspheres) are unaffected.
Live-verified: torch + candle/brazier family block now; ~115 cyl/sphere
Setups register across streamed landblocks. Core suite green (1595/0).
The earlier selection-sphere hypothesis was WRONG and is reverted -- the cdb's
r=0.48 sphere was the player/NPC body (every body sphere is ~0.48), not the
torch. The correct cdb method: capture the TARGET at FindObjCollisions (not
`this` in CSphere::intersects_sphere) and confirm by position + Setup-id.
(Issue numbered #149 to stay clear of main's #148; this worktree branched
before main's #145-148 were added.)
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
User gate: the "Slots" toggle caption was gold (should be white) and centered
(should sit at the left, before the slots). UiButton gains a LabelAlignment
(Center default / Left); the paperdoll caption is set white + Left-aligned.
The retail checkbox box (green-checked / circle-unchecked) + the exact pose
are the two remaining pieces, done next.
Build + full App suite green (596).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
RegisterLiveEntityCollision had a premature gate at the top of the method:
if (!hasCyl && !hasSphere && !hasRadius) return;
This fired BEFORE ShadowShapeBuilder.FromSetup ran. The builder emits a BSP shape
for every Part whose GfxObj has a PhysicsBSP, regardless of CylSpheres/Spheres/Radius.
A furniture weenie with only a physics-BSP mesh (candle holder, candelabra, etc.)
has no CylSpheres, no Spheres, and Radius=0 -- so it was always dropped, making it
fully passable (invisible wall that lets the player walk through it).
Fix: remove the premature gate. The three `bool` locals (hasCyl, hasSphere, hasRadius)
are retained -- `hasRadius` is still used by the Radius fallback lower in the method
for entities with no CylSphere/Sphere/BSP but a non-zero setup.Radius. The correct
final gate at shapes.Count==0 (after builder + Radius fallback) handles all cases:
- BSP-only entity: builder emits BSP shape -> shapes.Count>0 -> registered.
- Truly shapeless (no BSP, no cyl, no sphere, no radius): builder empty, no Radius
fallback fires -> shapes.Count==0 -> return (not registered, passable). Correct.
Retail anchor: CPhysicsObj::FindObjCollisions (acclient_2013_pseudo_c.txt:276917) --
the gate at pc:276917 is on the MOVER's CPartArray, not a target-side shape filter.
CPartArray::FindObjCollisions (pc:286236) iterates ALL parts; each part's
find_obj_collisions tests physics_bsp when present. There is no retail equivalent of
our premature gate that skips BSP-only targets.
Tests (ShadowShapeBuilderShapeSourceTests): two new cases.
Setup_WithBspPart_NoCylSpheres_EmitsBspShape -- proves the builder emits the shape
the premature gate was discarding.
Setup_WithPartButNoBsp_NoCylSpheres_YieldsEmptyShapeList -- regression guard proving
truly shapeless entities are still not registered (the shapes.Count==0 gate holds).
Full Core suite: 1595 pass / 0 fail / 2 skip.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
CPhysicsObj::FindObjCollisions at pc:276961-276989 has a two-layer mechanism for
ethereal doors. Layer 1 (BSPQuery Path-1 sphere_intersects_solid, pc:323742) already
ported in Task 3 handles the open-gap case. Layer 2 (pc:276963-276977) is a
force-reset that catches the residual case: when the player's sphere CENTER crosses
a thin ethereal slab, sphere_intersects_solid can still return Collided via
HitsSphere (polygon contact on the slab face). Without Layer 2, the opened door
remains an invisible wall until the player's center passes ~0.48m beyond the slab.
Port: in FindObjCollisionsInCell, immediately after the shape dispatch (BSP / Sphere /
Cylinder branches), insert the Layer-2 gate:
if (result != OK && sp.ObstructionEthereal && !sp.StepDown && (obj.State & 0x1u) == 0)
{ result = OK; ci.CollisionNormalValid = false; }
The STATIC_PS (0x1) guard (pc:276969) ensures static-ethereal env geometry still
blocks. Cylinder/Sphere shapes already return OK from their own ObstructionEthereal
early-outs so Layer 2 is effectively BSP-only in practice, but is written
unconditionally matching retail.
Tests (ObstructionEtherealTests): three new BSP Layer-2 cases using a synthetic
wall polygon in local-space coordinates. (A) ethereal non-static: passable. (B)
ethereal+static: still blocks. (C) non-ethereal: still blocks. All 11 tests pass;
DoorCollision/CellarUp/CornerFlood/HouseExitWalk regression gate: 25/25 pass.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Part A (D4): CObjCell::check_entry_restrictions (pc:309576) gate is omitted from
FindEnvCollisions. Investigation confirmed the gate requires restriction_obj (per-cell
access-lock entity id) + weenie-object-table dispatch (CanMoveInto / CanBypassMoveRestrictions)
— neither exist in acdream. CellPhysics has no restriction_obj field; DatReaderWriter
models no per-cell access locks. Gap is inert in all dev content (ACE starter area has
no access-locked env cells). Documented as AP-50 in the retail divergence register.
Part B (W1): Replace the hardcoded-false smell in BspOnlyDispatch with named internal
helpers PvpExempt() and MissileIgnore() that return false with retail oracle citations
(pc:276808-276841 and pc:274385 respectively). BspOnlyDispatch now folds all three
terms in retail's exact predicate structure. Behavior is byte-identical in M1.5 scope
(both stubs false ⇒ reduces to HAS_PHYSICS_BSP_PS check alone, same as before).
A6.P7 door dispatch unchanged.
Tests: 3 new guard tests in A6P7DispatchRulesTests — W1_PvpExempt_ReturnsFalseInM15Scope,
W1_MissileIgnore_ReturnsFalseInM15Scope, W1_BspOnlyDispatch_DoorStateStillDispatchesBspOnly.
Suite: 1590 pass / 0 fail / 2 skip (was 1587 + 3 = 1590).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Mirrors RemoveBuildingsForLandblock (#146) for indoor CellPhysics entries.
_cellStruct is first-wins (CacheCellStruct's ContainsKey guard); without
eviction a dungeon's BSP WorldTransform is permanently locked to the
_liveCenter value at first streaming — a teleport recenter leaves cells at a
stale offset (~source↔dest distance), and foot-sphere collision queries miss
the geometry that visually renders correctly.
PhysicsDataCache.RemoveCellsForLandblock iterates _cellStruct.Keys and
TryRemove-s every entry whose high-word matches the evicted landblock prefix.
PhysicsEngine.RemoveLandblock now calls it alongside ShadowObjects.RemoveLandblock
so cell BSPs rebase on the next CacheCellStruct pass, same as buildings.
No divergence register row needed: this closes a gap introduced when the #146
building-eviction pattern was created without the symmetric cell eviction.
Tests: RemoveCellsForLandblockTests (3 cases): evicts-matching-prefix,
empty-cache no-throw, no-matching-cells leaves-others. Core suite: 1587 pass / 0 fail.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Retail oracle greps confirmed:
- CSphere::intersects_sphere @ 0x00537ae4 (pc:321692): the ethereal branch
is `void __thiscall` — all paths return void (no COLLIDED). The function
performs a proximity check only; no blocking result is produced.
- CCylSphere::intersects_sphere @ 0x0053b4a0 (pc:324573): same void-return
pattern — ethereal branch calls collides_with_sphere (check only, no slide),
all returns are void = passable.
Change: added `if (sp.ObstructionEthereal) return TransitionState.OK` at the
top of SphereCollision and CylinderCollision in TransitionTypes.cs, mirroring
the void-return semantics of both retail functions. The existing per-object
clear at pc:276989 (line 2837) still fires after the early OK return.
Before this fix: an ethereal-alone NPC/ghost with a Cylinder or Sphere shadow
shape would BLOCK the player (regression introduced when Task 3 made ETHEREAL-
alone fall through ShouldSkip instead of instant-skipping). After: all three
shape types — BSP (via BSPQuery Path 1), Sphere, and Cylinder — correctly pass
through when obstruction_ethereal is set.
Tests: added 4 tests to ObstructionEtherealTests.cs verifying:
- Ethereal Cylinder → passable (sweep passes through, no CollisionNormalValid)
- Ethereal Sphere → passable (same)
- Non-ethereal Cylinder → still blocks (regression guard)
- Non-ethereal Sphere → still blocks (regression guard)
Full Core suite: 1584 pass, 0 fail, 2 skip (pre-existing dat skips).
Pseudocode doc updated with confirmed cyl/sphere ethereal contracts and the
complete set/clear/consume flow summary.
Retail refs:
- CSphere::intersects_sphere @ 0x00537ae4 / acclient_2013_pseudo_c.txt:321692
- CCylSphere::intersects_sphere @ 0x0053b4a0 / acclient_2013_pseudo_c.txt:324573
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Retail CPhysicsObj::FindObjCollisions (0x0050f050) only instant-skips when
BOTH ETHEREAL_PS (0x4) AND IGNORE_COLLISIONS_PS (0x10) are set (pc:276782).
ETHEREAL-alone sets sphere_path.obstruction_ethereal=1 (pc:276806) and
continues to the shape dispatch. BSPTREE::find_collisions (0x0053a496) routes
Path 1 (sphere_intersects_solid) when the flag is set (pc:323742): the open
door has no solid leaf at the doorway, so the test returns OK → player passes
through. CEnvCell::find_env_collisions (0x0052c144) clears the flag first so
ENV walls are never weakened (pc:309580, "D5 clear").
Changes:
- CollisionExemption.ShouldSkip: require BOTH bits for Gate-1 early-out
(previously ETHEREAL alone returned true — the AD-7 shim). Divergence
register row AD-7 deleted.
- SpherePath: add ObstructionEthereal field (mirrors retail
SPHEREPATH.obstruction_ethereal).
- FindObjCollisionsInternal loop: set sp.ObstructionEthereal=(target&0x4)!=0
before shape dispatch; clear it after (per-object clear pc:276989).
Also clear at the null-BSP continue site to keep flag clean.
- FindEnvCollisions: clear sp.ObstructionEthereal=false at top (D5 clear
pc:309580) — ENV cell walls are always solid.
- BSPQuery.FindCollisions Path 1: change `obj.Ethereal` (ObjectInfo.Ethereal,
always false — dead code) to `path.ObstructionEthereal`. Gate now correctly
mirrors retail pc:323742: PLACEMENT_INSERT || obstruction_ethereal.
Consume site change (BSPQuery.cs before/after):
BEFORE: if (path.InsertType == InsertType.Placement || obj.Ethereal)
AFTER: if (path.InsertType == InsertType.Placement || path.ObstructionEthereal)
Mirrors retail pc:323742 exactly. obj.Ethereal was dead code (ObjectInfo.Ethereal
is never set true anywhere); the correct flag is SpherePath.ObstructionEthereal.
Tests: 1580 pass / 0 fail / 2 skip (was 1576/0/2 + 4 new in ObstructionEtherealTests.
CellarUp, CornerFlood, DoorCollision, HouseExitWalk all green — no wall regressions.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Setup.Spheres were previously coerced to short cylinders (CylHeight=2*r),
which is geometrically wrong: a cylinder has flat caps; a sphere does not.
This ported CSphere::intersects_sphere (0x00537A80) so sphere-typed shadow
entries are tested as spheres — 3-D distance, no height clamping.
Changes:
- ShadowObjectRegistry.cs: added ShadowCollisionType.Sphere (enum value 2).
The BuildFloodSpheres anyCyl dedup at :232 is unaffected: only Cylinder
sets anyCyl=true; Sphere shapes fall through to the BSP-fallback path
(anyCyl=false → included), which is correct.
- ShadowShapeBuilder.cs: FromSetup now emits ShadowCollisionType.Sphere
(CylHeight=0) for Setup.Spheres instead of a short Cylinder.
- CollisionPrimitives.cs: added SweptSphereHitsSphere — quadratic swept
solve ported from ACE Sphere.cs::FindTimeOfCollision, which is a C# port
of retail's CSphere::intersects_sphere @ 0x00537A80. Sign convention
confirmed against the decomp: retail negates the root to produce a
forward t ∈ (0,1].
- TransitionTypes.cs: added Sphere narrow-phase branch between BSP and
Cylinder in FindObjCollisionsInCell; uses 3-D distance for overlap
(not XY-only). Added SphereCollision() method implementing the 3-D
wall-slide response. Updated diagnostic logging at :2734 to cover Sphere.
- Updated ShadowShapeBuilderTests for new Sphere type assertion.
- New SphereIntersectsSphereConformanceTests: 9 geometrically-anchored
cases (head-on, tangent, perpendicular-miss, lateral-near-miss,
sweep-away, beyond-step, degenerate-zero-sweep, already-overlapping,
vertical-sweep).
Retail oracle: CSphere::intersects_sphere @ 0x00537A80 (named-retail);
ACE Sphere.cs::FindTimeOfCollision (C# port, cross-confirmed).
Build: 0 errors, 10 warnings (pre-existing).
Tests: 1576 pass / 0 fail / 2 skip (1578 total).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Retail oracle: CPartArray::InitParts@0x00517F40, CGfxObj::Serialize@0x00534970 (physics_bsp
gated on serialized-flags bit-0), CPhysicsPart::find_obj_collisions@0x0050D8D0 (returns OK /
passable when physics_bsp==null). Render-mesh bounds never enter collision.
Changes:
- GameWindow.cs: delete the ~200-line VISUAL mesh-bounds collision block (the
isPhantomSetup / isPhantomGfxObj locals + the if-block computing worldMin/worldMax
AABB + the ShadowObjects.Register call that capped and registered the synthetic
cylinder). Also removes dead counter variables scHaveBounds/scRegistered/scNoBounds/
scTooThin; trims the ProbeBuildingEnabled summary line accordingly.
- PhysicsDataCache.cs: delete IsPhantomGfxObjSource (the predicate that only existed
to fence the mesh-AABB synthesis; the "phantom" concept is now the default — no DAT
shape means no registration, verbatim with retail).
- PhysicsDataCachePhantomSourceTests.cs: deleted (tested the removed method).
- ShadowShapeBuilderShapeSourceTests.cs: new guard test — a Setup with parts but
hasPhysicsBsp=false and no CylSpheres/Spheres yields an empty shape list, locking
the DAT-only rule in the builder.
- retail-divergence-register.md: AP-2 row deleted (divergence retired).
Objects with no DAT physics shape (no CylSpheres, no Spheres, no part with a
PhysicsBSP) now register no collision shape and are passable, verbatim with retail.
Objects with real DAT shapes (BSP parts, CylSpheres) are unaffected.
dotnet build green, 22/22 tests passing (ShadowShapeBuilderShapeSourceTests +
CellarUpTrajectoryReplay + CornerFlood + Issue147ArwicBuildings replay harnesses).
Visual gate pending: walk Holtburg + open world; objects that become passable must
match retail (DAT has no physics shape — trees with real CylSpheres still solid).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
19-agent verified audit of how retail decides which objects collide vs
acdream's per-channel filters. Confirms the user's "1 fix for all collision"
intuition: acdream already has retail's two-layer shape (per-cell shadow
registration + query-time exemption); the divergences are now narrow and
enumerable, not a scattered filter mess.
Audit (docs/research/2026-06-24-collision-inclusion-audit.md): 6 confirmed
deviations (D1 mesh-AABB phantom HIGH, D2 ETHEREAL-alone, D3 no sphere
primitive, D4 entry-restrictions, D5 obstruction_ethereal absent, D8 cell-
transform stale cache) + 2 refuted by the adversarial pass (D6 placement-
insert present in BSPQuery; D7 terrain pass-through is the #135/#138
streaming-gap, retail does it too). Loader verified faithful: CacheGfxObj
reads PhysicsBSP gated on HasPhysics; the mesh-AABB is a pure additive
non-faithful layer.
Design (docs/superpowers/specs/2026-06-24-unified-collision-inclusion-design.md):
"1 fix" = one DAT-only shape authority (delete mesh-AABB), one query
predicate, four faithful channels kept distinct (retail keeps find_env/
find_building/find_obj separate), one per-apply rebase invariant. 5
independently-gated slices. Retires register rows AP-2 + AD-7.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Next-session brief: build retail's collision-inclusion model (PhysicsState/
ETHEREAL/HAS_PHYSICS_BSP predicate + per-cell shadow-list registration + the
building-shell/terrain/EnvCell channels), map acdream's per-channel ad-hoc
filters against it, enumerate deviations, and design ONE unified retail-faithful
mechanism to replace them. Motivated by this session's #146/#147 — both were the
same shape (a per-channel filter diverging from retail). Brainstorm-gated,
report-first, no guess-patches. Includes the apparatus inventory + a paste-ready
prompt.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The "#145 far-town frame" premise was wrong: #146's bldOrigin probe proved
Arwic buildings are correctly framed. The walls were portal-less buildings
skipped by the collision cache; the terrain-3%-grounded sub-question is
re-scoped LOW (no fall-through observed; likely a contactPlaneValid nuance).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
A town's outer/perimeter walls have NO collision even on a fresh login: the
player walks straight through them while houses block fine. Confirmed NOT a
frame issue — #146's bldOrigin probe showed Arwic buildings are correctly
framed (~12 m from the player, not km off), so the "#145 far-town frame"
premise was wrong here.
Root cause (dat-confirmed, Issue147ArwicBuildingsDumpTests): a perimeter wall
is stored in LandBlockInfo.Buildings as a doorless shell — 16 of Arwic's 30
buildings are PORTAL-LESS, ringing the town at 24 m intervals (x=12/132,
y=12/108). The building-collision cache loop skipped them via
`if (building.Portals.Count == 0) continue;` — a filter meant only for the
transit/entry feature (CellTransit.CheckBuildingTransit) that also dropped the
collision shell. Retail's find_building_collisions (0x006b5300) tests the shell
BSP independent of the portal list, so a doorless wall still collides.
Fix: don't skip portal-less buildings — cache them with an empty portal list
(no transit) but their collision shell (ModelId) intact. User-verified: Arwic
perimeter walls now block (Collided/Slid). Adds the dat-dump fixture test.
Suites green: Core 1569(+2 skip), App 468(+2 skip), UI 425, Net 317.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Static building/house-wall collision worked on a fresh login to a town but was
lost after logging in elsewhere and PORTALING in: the foot-sphere clipped
straight through walls while server-spawned doors (own collision) still blocked.
Root (capture-confirmed, ACDREAM_PROBE_BUILDING bldOrigin): the building shell
BSP's WorldTransform is computed from the streaming-relative origin
(origin = (lb − _liveCenter)·192) AT CACHE TIME, and CacheBuilding is idempotent
(first-wins per cell). A teleport recenters _liveCenter, but the idempotent guard
never re-bases the cached transform — so the shell sat at a stale world offset
(login Arwic → portal Holtburg: bldOrigin=(-5488,2149), ~5.5 km from the player
at (83,24)), and FindBuildingCollisions never penetrated → result=OK everywhere →
no block. Terrain doesn't suffer this because AddLandblock overwrites its
WorldOffset on every apply.
Fix: clear a landblock's cached buildings at the start of each ApplyLoadedTerrain
(PhysicsDataCache.RemoveBuildingsForLandblock), then let the existing loop
re-populate fresh with the CURRENT origin — the per-apply re-base terrain already
gets, while keeping CacheBuilding's per-cell first-wins within each fresh pass
(retail CSortCell::add_building). Also adds bldOrigin to the [bldg-channel] probe.
Verified on the exact repro (Arwic login → Holtburg portal → walk into wall):
bldOrigin now (107.5,36.0) at the wall (was -5488,2149); channel returns
Collided → Slid (block + wall-slide). Suites green: Core 1568(+2 skip),
App 468(+2 skip), UI 425, Net 317.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Issue A ("no collision after death/portal") investigated capture-first and
confirmed to be TWO distinct bugs (user-corroborated + ACDREAM_CAPTURE_RESOLVE
data, 255,832 player resolves):
- #147 (HIGH) far-town (Arwic): grounded only 3% of resolves vs 100% at
Holtburg/dungeon; city/perimeter walls never block even on a fresh login —
the #145 streaming-relative-frame family. Scope as a brainstormed #145
sub-phase, not a one-commit fix.
- #146 (MEDIUM) Holtburg: building/house-wall collision works on fresh login
but is lost after portaling in. The [bldg-channel] probe fires post-portal
(building is cached + reached) yet result=OK as the foot-sphere walks into
the wall — the building WorldTransform is baked from _liveCenter at cache
time and CacheBuilding is idempotent, so the recenter leaves a stale offset.
Also recorded against #138 that symptom B (avatar vanish) was root-caused and
fixed in afd5f2a (RelocateEntity-during-PortalSpace), not just the pending-
bucket rescue candidate.
No guess-patches applied to the collision code (DO-NOT-RETRY area).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
After a teleport-OUT the per-frame avatar-sync (GameWindow ~:8018) called
GpuWorldState.RelocateEntity with the player controller's cell — which stays the
FROZEN SOURCE cell until PlaceTeleportArrival materializes the destination. So
mid-transit it dragged the avatar (which the teleport's rescue/re-inject had
correctly placed at the destination center) back into the now-UNLOADED source
landblock's pending bucket, where nothing recovers it (RelocateEntity only scans
_loaded). Net: the avatar vanished after teleporting out and stayed gone.
Fix: skip the per-frame relocate while the player is in PortalSpace. The teleport
machinery (DrainRescued + PlaceTeleportArrival) owns the avatar's landblock during
transit; per-frame relocation resumes at FireLoginComplete (InWorld).
Live-verified with a new env-gated avatar-lifecycle probe (ACDREAM_PROBE_ENT /
EntityVanishProbe; [ent] draw-set transitions + [dyn] cull check): pre-fix the
trace showed `[ent] APPEND lb=0x0007FFFF(source) -> PENDING -> DRAWSET ABSENT`
never recovering; post-fix every teleport goes RESCUE -> ABSENT ->
APPEND(destination) -> PRESENT and stays drawn (4 teleports incl. to Holtburg,
session ended PRESENT).
Suites green: Core 1568(+2 skip), App 468(+2 skip), UI 425, Net 317.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Both observed 2026-06-24 after the FPS work; both are the known #135/#138 placed-
but-unstreamed streaming gap (NOT FPS-work regressions — those commits are render-
only). Handoff maps the symptoms to ISSUES, flags the delicate-area lessons (no
guess-patches, the reverted hold, fix-the-foundation, capture-first), and points
at the physics digest + streaming refs + capture apparatus.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Report: OUTCOME section (the two shipped fixes, the glFinish-artifact correction,
the deliberately-unpursued scenery-CPU/terrain-GPU headroom). ISSUES: recently-
closed entry with SHAs + pointers.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The FPS deep-dive landed (dense Arwic 75 -> ~165 fps via the cell-object
batching + cell-particle consolidation, both already committed). Remove the
throwaway diagnostic apparatus now that it has served its purpose:
- delete FrameProfiler.cs (whole-frame TimeElapsed + [PASS-GPU] glFinish +
[CPU-PHASE]/[GPU-PHASE] timers + the =1/=2 ACDREAM_FPS_PROF modes)
- GameWindow: _fpsProf/_frameProfiler/_msaaSamples fields, the BeginFrame/
EndFrame/MarkUpdateStart hooks, the terrain glFinish, and the landscape
sub-phase LsMark instrumentation
- RetailPViewRenderer: the DrawInside per-phase Phase()/MarkGpu markers
- ParticleRenderer / PortalDepthMaskRenderer / EnvCellRenderer: the per-pass
glFinish brackets
- delete DegradeCoverageProbeTests.cs (the dead distance-degrade probe)
KEPT (the real fixes): RetailPViewRenderer cell-object batching + consolidated
cell-particle pass; EnvCellRenderer.CellHasTransparent. Build + full test suite
green (468 App incl. pview replay tests; 1566 Core; 317 Net; 425 UI).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
DrawCellObjectLists drew cell particles PER visible cell, and each call
(DrawRetailPViewCellParticles -> ParticleRenderer.Draw) re-walked the ENTIRE
live particle set to filter by owner id — O(cells x particles). Measured via
[CPU-PHASE] at dense Arwic this was the cellobjects sink (~5.4 ms CPU; the
phase's GPU share is 0.01 ms — pure CPU). gpu is 0.5 ms; the dense town is
~96% CPU-bound (the earlier "6.7 ms GPU" was a moving/streaming transient).
Static owners are disjoint per cell (InteriorEntityPartition.ByCell partitions
by ParentCellId), so the UNION of survivors (= _allCellStatics, already
accumulated in loop 1 for the batched entity draw) draws EXACTLY the same
emitters in ONE pass: the callback gates on owner id, the renderer sorts
globally back-to-front, and the per-cell slice was never used for clipping
(scissor gate deleted in T3; DisableClipDistances). Runs after the batched
static draw so emitters still depth-test against same-cell statics. Deletes the
loop-2 re-cull and collapses the per-cell BuildDrawList allocations N -> 1
(also eases the GC spikes).
Adversarial review (3 angles) confirmed emitter-set equivalence, no double-
draw, equal-or-better compositing, and no lost per-cell side effect — and found
the OLD code DOUBLE-DREW additive particles for multi-view-polygon cells (one
DrawCellParticles per slice, same owner set each time; the #121 over-bright
class). Consolidation draws each emitter once, fixing that latent bug.
Pixels identical-or-better; draw-mechanism speed only. Build + full suite green
(pview replay tests incl. HouseExitWalkReplay/TowerAscent/Issue130 pass).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
DrawCellObjectLists called WbDrawDispatcher.Draw once per visible cell (each
orphaning 6 SSBOs + full state setup) — the top CPU-submission sink at dense
Arwic (cellobjects ~3.5ms/frame, measured via [CPU-PHASE]; the frame is
~96% CPU-bound, GPU only 0.5ms). Apply the shipped cells-shell batching
pattern to cell OBJECTS: collapse N per-cell draws into ONE cross-cell draw.
Two-loop structure preserves the statics-before-particles depth order:
loop 1 — per-cell viewcone cull, accumulate all survivors + the union of
cell ids;
one batched DrawEntityBucket for every cell's statics;
loop 2 — per-cell DrawCellParticles, after the statics own the depth buffer.
Correctness: same survivor set (union visibleCellIds gate is equivalent to the
per-cell {cellId} filter); transparency composites equal-or-better (the
dispatcher sorts opaque front-to-back + transparent back-to-front globally,
WbDrawDispatcher.cs:1469-1470); particles still occlude against same-cell
statics (loop 2 runs after the batched draw); dynamics-last + shells + seals
unchanged. Also drops the per-cell new[]{entry} alloc (~50-100/frame) to one.
Pixels identical — draw-mechanism speed only (render-perf is not faithfulness-
gated per the project steer). Spec: docs/superpowers/specs/2026-06-23-cellobject-
draw-batching-design.md. Build + full test suite green (App pview replay tests
incl. HouseExitWalkReplay/Issue130DoorwayStrip pass).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Decouple the whole-frame TimeElapsed query from the per-pass glFinish so the
CPU-vs-GPU split is honest: ACDREAM_FPS_PROF=2 runs the frame query with NO
per-pass glFinish (PassGpuEnabled stays "1"-gated). Plus [CPU-PHASE] timers
around each DrawInside phase (flood/assemble/prepare/partition/landscape/
portalmask/shells/cellobjects/dynamics) — the CPU analog of [PASS-GPU].
This is what proved the dense town is ~96% CPU-bound (GPU=0.5ms) and that the
cost is per-cell draw submission (cellobjects ~3.5ms), not the portal floods /
punch-seal / clip allocs the static analysis had guessed. Throwaway; strip with
the rest of the FPS apparatus (plan Task 5).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Cells batching shipped (29->75fps, 2.6x); remaining ~12ms is diffuse (particles
~3, punch/seal ~3, ~5.5 unattributed) + frame spikes. Next session: deep-dive
with RenderDoc to attribute + push higher. Distance-degrade theory is dead.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Per-pass GPU attribution for the dense-town deep-dive: ParticleRenderer.Draw and
PortalDepthMaskRenderer.DrawDepthFan report into FrameProfiler [PASS-GPU]. Joins
the cells/terrain timers. glFinish serializes -> inflates absolutes; use for
relative attribution. STRIP with the rest of the apparatus when FPS work lands.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
DrawBuildingLookIns had the same per-cell heavy Render pattern. Lift the opaque
shell Render out into one per-building batch (after that building's aperture
punches); keep the per-cell loop for transparent (skip-empty) + per-cell statics
/dynamics/particles. User-verified: no missing walls, look-in interiors correct.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Dense-town FPS root cause: DrawEnvCellShells called the heavy per-frame
EnvCellRenderer.Render once PER cell x opaque+transparent (~94 calls/frame,
24.75ms = 75% of GPU at Arwic). Batch opaque into one Render(Opaque, allCells)
(z-buffer order; per-instance CellId-keyed lighting => safe) + skip the
transparent Render for opaque-only cells, keep far->near for the rest.
Measured (Arwic, same facing, profiler on): cells 94 calls/24.75ms -> 1 call/
0.37ms; frame 34ms/29fps -> ~10ms/100fps p50.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Live profiling found the dense-town (Arwic 29fps) bottleneck: EnvCellRenderer
.Render called ~94x/frame (per-cell x opaque+transparent) = 24.75ms = 75% of
the GPU frame. Render is a heavy per-frame method (state reset + SSBO upload +
MDI) invoked per-cell for far->near transparency order. Eliminated, with
evidence, every other suspect incl. the handoff's distance-degrade theory
(entities 0.22ms; resolution-independent => not fill; update 0.1ms).
Spec: batch the shell draws into one Render per pass. Opaque needs no order
(z-buffer) + lighting is per-instance (CellId-keyed SSBO) => safe to batch.
Transparent: skip opaque-only cells, preserve order for the rest.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Visual gate 2 (user): the "Slots" toggle caption was visible but unclickable.
Root cause (UiRoot.OnMouseDown/OnMouseUp): a left-press on a non-drag-source
widget inside a whole-window-Draggable frame (the inventory window's IA-12
drag) set _windowDragTarget; OnMouseUp then early-returned before emitting the
Click. So the paperdoll Slots button (the first plain button inside the
draggable inventory frame) never received its click. Chat/toolbar buttons
escape this — their frames aren't whole-window-draggable.
Fix (toolkit, root cause not band-aid): add UiElement.HandlesClick (a virtual
opt-out parallel to IsDragSource); UiButton overrides it true; OnMouseDown
routes a HandlesClick press to the widget (like CapturesPointerDrag) instead of
the window-drag, so OnMouseUp emits the Click. 2 regression tests lock it
(HandlesClick widget in a Draggable frame emits Click; a plain one doesn't).
Build + full App suite green (596, +2).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Session shipped the _datLock-contention fix (lockwait 88ms->0, kept). Remaining
FPS pain (sustained ~30 in Fort Tethana, view-direction-dependent) root-caused to
the absence of distance-based LOD/degrade: we draw every frustum-visible object at
full detail. Next: port retail UpdateViewerDistance/get_degrade. Full mechanism,
file:line map, apparatus state, and DO-NOT-RETRY lessons captured.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
DeferredApplyBacklog / ForceReloadCount / LastForceReloadDropCount, read by
GameWindow's [FRAME-DIAG] rollup. Diagnostic scaffolding (ACDREAM_WB_DIAG=1);
strip with the rest of [FRAME-DIAG] when the FPS work fully lands.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Visual gate 1 (user): the doll rendered but only the legs showed (camera
aimed at the model origin = the feet) and the Slots button was invisible.
- DollCamera: aim the look-at at mid-body (~0.95 m) and stand back ~3.7 m
so the whole ~1.9 m figure fits. (Size is a later retail-comparison
polish per the user.)
- PaperdollController: the Slots button (0x100005BE) is found + wired
(diagnostic confirmed armorSlots=9/9, viewport=UiViewport,
slotsButton=UiButton) but its dat element has no face sprite, so it drew
nothing. Give it a gold "Slots" caption (UiButton.Label, like chat Send)
via a new datFont param on Bind. Temporary [Slice2-paperdoll] diagnostic
logs the button rect + the found widgets (stripped at wrap-up).
Idle animation deferred to a focused follow-up (faithful idle needs a full
AnimatedEntity + Sequencer through the TickAnimations multi-branch path +
re-dress coordination — real integration risk vs the verified static doll).
Build + full App suite green (594).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
ApplyLoadedTerrainLocked makes zero DatCollection calls (all dats pre-read by
the worker into lb.PhysicsDats), and its other mutations are update-thread-only
or ConcurrentDictionary-safe, so the dat lock is unnecessary around it.
Removing it eliminates the measured 24ms-median / 88ms-p95 lockwait stall that
was the 30↔200 FPS swing. The worker still serializes its own dat reads on
_datLock; only the apply stops contending. Build + 1568 Core tests green.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
ApplyLoadedTerrainLocked's six Get<T> sites now read from lb.PhysicsDats via
TryGetValue (loud-fail on a gather/apply id mismatch). Zero _dats.Get calls
remain in the apply. Behavior identical: same ids -> same cached dat objects
-> same surfaces/BSP/ShadowObjects. Lock removal is the next commit.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
BuildPhysicsDatBundle mirrors the apply's six Get<T> sites (LandBlockInfo,
EnvCell, Environment, building Setup, entity GfxObj, entity Setup) under the
worker's existing _datLock and attaches them to LoadedLandblock. Far tier
gets PhysicsDatBundle.Empty.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Carries the parsed dat objects ApplyLoadedTerrainLocked needs so the worker
can pre-read them and the apply can run lock-free. Optional field (default
null) keeps existing LoadedLandblock construction back-compatible.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
5-task TDD plan: PhysicsDatBundle on LoadedLandblock; worker pre-reads the
apply's six Get<T> sites into it; ApplyLoadedTerrainLocked reads from the
bundle; drop the apply's lock(_datLock); verify lockwait->0; strip probes.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Drives the doll 3-D pass in a pre-UI hook (after the world passes, before
_uiHost.Draw), gated on inventory-open AND doll-view (the viewport widget's
Visible, set by the Slots toggle). RefreshPaperdollDoll clones the live
player entity (_entitiesByServerGuid[player]) into a DollEntityBuilder doll
with COPIED MeshRefs (frozen pose); re-dress is triggered by a dirty flag
set in OnLiveAppearanceUpdated (0xF625) — the C# analog of RedressCreature.
Correctness fix: the doll is passed in animatedEntityIds so the dispatcher
BYPASSES the Tier-1 classification cache (WbDrawDispatcher.cs:1142). Without
it, a re-dress (a new WorldEntity with the same fixed DollRenderId) would
serve the previous doll's cached batches and the new gear wouldn't appear.
Renderer disposed in the GameWindow teardown. Build + full App suite green
(594). Static doll (no idle animation yet — next slice). Visual gate next.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The 30↔200 FPS swing is _datLock contention: the streaming worker holds
the global dat lock for the full per-landblock build (lockwait measured
24ms median / 88ms p95), stalling the update thread's ApplyLoadedTerrain.
Fix (A1): the worker pre-reads the apply's six Get<T> sites into a physics
dat bundle so ApplyLoadedTerrainLocked makes zero DatCollection calls and
its lock(_datLock) is removed. Approved design; implementation next.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The C# analog of CreatureMode::Render: draws one re-dressed player clone
into a private FBO (RGBA8 + depth24-stencil8) with the fixed DollCamera +
one distant light (retail 0.3,1.9,0.65 @ 2.0), sealed in a GLStateScope so
it can't disturb world/UI GL state. frustum:null ⇒ the doll's synthetic
landblock is always visible ⇒ walked from entry.Entities and drawn from its
current MeshRefs (static pose; idle animation is a later slice).
Manages the FBO directly via GL (ManagedGLFramebuffer is unused/bitrotted
WB infra). UiViewport blit flips V (FBO bottom-left origin vs UI top-left)
so the doll isn't upside-down. Not yet wired — GameWindow hook is next.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Mirrors the palette/part-override mapping at GameWindow.cs:3390-3431 in a
testable static helper. Build() accepts plain (SubPaletteId, Offset, Length)
and (PartIndex, GfxObjId) tuples, builds PaletteOverride only when
subPalettes.Count > 0 (same gate as GameWindow), and poses the entity at
origin facing the viewer (191.367905° / +Z). Reserved synthetic guid
0xDA11D011 keeps the doll distinct from the live player and satisfies
EntitySpawnAdapter's ServerGuid != 0 guard. 7 new tests green; suite 594/0.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>