Iteration on the sky rendering pipeline to restore stars/moon visibility
at night and fix washed-out grey daytime clouds. Key fixes:
* sky.frag: disable fog-mix on sky meshes. Retail's keyframe FogEnd
(0..400m at midnight, up to 2400m during day) is calibrated for
terrain; sky meshes are authored at radii 1050-14271m which sits
past FogEnd universally, causing every sky pixel to saturate to
fogColor (dark navy). Stars, moon, dome texture all got
obliterated. The horizon-glow trade-off is noted in the shader
comment; research item to find retail's sky-specific fog range
later.
* SkyRenderer + sky.frag: promote rep.Luminosity into uEmissive so the
vertex lighting saturates properly for bright keyframes. Retail's
FUN_0059da60 non-luminous path writes rep.Luminosity into
material.Emissive via the cache +0x3c slot; we were instead using
it as a post-fragment multiply which could only dim, never brighten.
Net effect: daytime clouds now render saturated white, dome dims
correctly at night (rep.Luminosity=0.11 → Emissive=0.11), stars
and moon unchanged.
* terrain.vert: MIN_FACTOR 0.08 -> 0.0 per retail FUN_00532440 decompile
(DAT_00796344 ambient-floor = 0.0). Back-lit terrain now falls to
pure ambient rather than getting an 8% sun floor.
New research / tooling (no runtime impact):
* docs/research/2026-04-24-lambert-brightness-split.md — retail's
ambient-brightness formula pinned from PE .rdata read + live
RetailTimeProbe capture: effAmbBright = AmbBright + |sunDir| * 0.2
where scale constant 0x0079a1e8 = 0.2f exactly.
* docs/research/2026-04-23-lightning-real.md — research note on the
dat-baked PhysicsScript-driven lightning path (Rainy DayGroup has
explicit PES-triggered flash SkyObjects with 5ms time windows).
* Corrections stapled to sky-decompile-hunt-{B,C}.md: DAT_00842778 is
DirColor, DAT_0084277c is AmbColor (the hunt docs had the swap
backwards).
* tools/RetailTimeProbe/Program.cs: extended with pid=NNNN selector,
sky global probe (DirColor/AmbColor/AmbBright/sunDir/cache.amb),
and the 0x0079a1e8 scale-factor readout.
* tools/SkyObjectInspect/: throwaway dat-inspector built by the Opus
deep-dive agent. Identified GfxObj 0x010015EF as the stars layer
(A8R8G8B8 128x128 texture, 4% bright-pixel ratio).
* src/AcDream.App/Rendering/TextureCache.cs: per-texture alpha
histogram dump under ACDREAM_DUMP_SKY=1 for diagnosing "are the
clouds decoded with proper alpha" type questions.
README: rewrite to reflect current state (playable pre-alpha rendering
Dereth with animated characters, day-night cycle, weather, etc.)
instead of the stale "Phase 0 dat inventory only" description.
All 742 tests green.
User-observed regression 2026-04-23: acdream spawned rain particles
when retail showed no rain at the same server tick. Root cause: my
Phase 3e shortcut mapped DayGroup.Name = "Rainy" → WeatherKind.Rain →
rain particle emitter. That's not what retail does.
Parallel decompile research confirms:
- Agent A (2026-04-23-physicsscript.md): PhysicsScript runtime lives
at FUN_0051bed0 → FUN_0051bfb0, runs per PhysicsObj; sky calls it
from NOWHERE.
- Agent B (2026-04-23-sky-pes-wiring.md): FUN_00508010 (sky render
loop) never reads SkyObject.DefaultPesObjectId — the field is dead
at render time. Rain/snow particles in retail come from a separate
camera-attached weather subsystem that has NOT yet been located.
So the correct behavior is: DayGroup name should only drive
fog/ambient tone (via keyframes, already in the Snapshot path),
never spawn particle emitters. Any retail-faithful particle rain
belongs to a future phase once we find the camera-attached weather
subsystem driver.
Change: MapDayGroupNameToKind now maps all weathery substrings
(storm/snow/rain/cloud/overcast/dark/fog) → Overcast — fog-only
visuals, no particle spawn. Clear names stay Clear. The Rain, Snow,
Storm enum values remain and are still accessible via ForceWeather()
for debug overrides.
Tests updated (WeatherSystemTests): the name→kind theory now expects
Overcast for Rainy/Snowy/Stormy variants.
Also commits the four research docs from this session's parallel
hunt: PhysicsScript dat+runtime, sky↔PES wiring (negative finding),
lightning timer (negative finding — agent #3), fog on sky
(positive: retail applies fog to sky geometry).
NOTE on lightning: agent #3's research only ruled out the CLIENT-SIDE
RANDOM TIMER hypothesis for lightning. User confirms retail does have
visible lightning + thunder. A follow-up agent (#5, in flight as of
this commit) is hunting the real mechanism — PlayScript opcode,
SetLight PhysicsScript hooks, AdminEnvirons side effects, or the
weather-volume draw. This commit does NOT attempt to port lightning.
Build + 733 tests green.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Captures where we stand after Phase 4b and lays out the remaining
retail-faithful port work across four phases (5-8):
- Phase 5: PhysicsScript loader + runtime + sky lifecycle. Replaces
WeatherSystem's crude "DayGroup name contains Rainy → spawn rain"
shortcut with retail's actual PES-driven particle emission.
- Phase 6: Fog on sky meshes. The sky frag currently ignores fog
uniforms; retail's D3D fog applies to sky.
- Phase 7: Lightning flash trigger + thunder audio for storm keyframes.
- Phase 8: Weather / DayGroup crossfade (DAT_008427a9 / _DAT_008427b8
lerp) + AdminEnvirons override → fog crossfade.
User observation 2026-04-23 during Phase 4b verification: "Now it is
raining when it should not be." Root cause traced to the
SetKindFromDayGroupName string match firing rain particles on a "Rainy"
DayGroup regardless of whether that DayGroup actually has a visible
rain-emitting SkyObject. Proper fix requires porting PhysicsScript.
Also commits the earlier research from agent Q1-Q6:
`docs/research/2026-04-23-sky-material-state.md`.
Four parallel decompile agents are in flight as of this commit:
- PhysicsScript dat + runtime
- Sky↔PES wiring + emitter lifecycle
- Lightning + weather crossfade
- Fog on sky + vertex distance
Phase 5 implementation starts once those land.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Ran a live memory probe against retail acclient.exe (new tool:
tools/RetailTimeProbe/) to read the TimeOfDay struct at
DAT_008ee9c8 and compare against our computed values. The decompile
agent's identification of TimeOfDay+0x10 as "SecondsPerDay (int
copy)" turned out to be WRONG — the live value is **360**, which is
GameTime.DaysPerYear.
The retail FUN_00501990 LCG seed is:
seed = Year × (*+0x10) + DayOfYear
= Year × DaysPerYear + DayOfYear
= flat "total days since epoch" day-index
Our previous Phase 3c port passed 7620 (DayLength in ticks) as the
multiplier, producing seed=883,967 against retail's seed=41,807 —
completely different LCG outputs, completely different DayGroup
picks. That's why the user's retail kept showing stormy/rainy while
acdream showed sunny/clear (or vice versa) even after Phases 3c.1
and 3f aligned Year and DayOfYear.
Also confirmed by the probe:
- EpochBase / ZeroTimeOfYear = 3600 ✓ Phase 3f already correct
- BaseYear / ZeroYear = 10 ✓ DerethDateTime.ZeroYear
- Year=116, DayOfYear=47 ✓ our AbsoluteYear / DayOfYear
- SecondsPerDay float (+0x0C) = 7620 ✓ DayTicks
- SecondsPerYear = 2,743,200 ✓ YearTicks
One "finding that's not a fix": retail's +0x48 DayFraction is a
sub-period fraction (fraction through current day/night window)
NOT a full-day fraction. CurDayEnd - CurDayStart = 2857.5 = 0.375
of a day = 6 Dereth hours = night duration. Not relevant for our
keyframe bracket interpolation, which correctly uses a full-day
0..1 scale matching the SkyTime.Begin values. Documented in the
probe research doc so future work doesn't trip on it.
Changes:
- tools/RetailTimeProbe/ — new P/Invoke tool. Forced x86 target to
match retail's bitness so hardcoded DAT_xxxxxxxx addresses are
pointer-width-correct. Handles ASLR relocation via
Process.MainModule.BaseAddress.
- src/AcDream.App/Rendering/GameWindow.cs: RefreshSkyForCurrentDay
passes 360 (DaysInAMonth × MonthsInAYear) not 7620.
- src/AcDream.Core/World/SkyDescLoader.cs: ActiveDayGroup(ticks)
and DefaultDayGroup same.
- docs/research/2026-04-23-retail-memory-probe.md — full probe
results + decompile-agent correction.
- AcDream.slnx — add tools/ folder.
Build + 733 tests green.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Decompile agent located the retail DayGroup selection function at
FUN_00501990 (chunk_00500000.c:1276). It is a straight-line 32-bit
signed LCG — NOT a ChanceOfOccur-weighted CDF. Replaces the SplitMix64
approximation from Phase 3a.
Algorithm (verbatim from the decompile):
seed = year * secondsPerDay + dayOfYear // TimeOfDay+0x64/+0x10/+0x68
hash = seed * 0x6A42FDB2 + 0x8ABE1652 // signed 32-bit LCG
index = floor(dayGroupCount * (uint)hash / 2^32)
if (index >= dayGroupCount) index = 0 // float-rounding safety
Uniform over all DayGroups. Dereth's 20 groups all carry ChanceOfOccur=5.0
so uniform matches the statistical intent; the weighted walk Phase 3a
attempted is NOT what retail does. The SecondsPerDay multiplier is
load-bearing — without it, adjacent years would share adjacent LCG
seeds and divergence from retail would recur annually.
Result (this session's local ACE):
server: PY106 ColdMeet 17 MorntideAndHalf, ticks=291130073
→ year=106, dayOfYear=(106×0 + 17 across ColdMeet) via DerethDateTime
→ retail picker returns a deterministic uniform index from LCG.
Acdream and retail now agree on the pick for any (Year, DayOfYear)
since both drive from the same server PortalYearTicks.
Changes:
- src/AcDream.Core/World/DerethDateTime.cs: add Year(ticks) and
DayOfYear(ticks) helpers (match retail TimeOfDay+0x64 / +0x68).
- src/AcDream.Core/World/SkyDescLoader.cs:
- SelectDayGroupIndex signature: (year, secondsPerDay, dayOfYear)
instead of the flat dayIndex used by the SplitMix64 approximation.
- Body: retail LCG line-by-line port with decompile citations.
- ACDREAM_DAY_GROUP env var still overrides (for A/B verification).
- src/AcDream.App/Rendering/GameWindow.cs: RefreshSkyForCurrentDay now
feeds Year / DayOfYear / SecondsPerDay=7620 to the picker instead
of a flat dayIndex. Composite `year*360+dayOfYear` still tracked
internally as the day-change key for provider-rebuild idempotence.
- docs/research/2026-04-23-daygroup-selection.md committed with the
full decompile trail (new agent-produced research).
Build + 717 tests green. User visual verification (retail side-by-side)
next.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
The uncommitted uTint=AmbientColor-for-alpha-submeshes experiment (from
the 2026-04-22 inference) dimmed the sky dome's baked gradient — a
user-verified visual regression. Reverting to the eeae83a baseline
(uTint=Vector4.One for every submesh) while we execute the proper
retail-verbatim port.
Research: three parallel decompile-hunt agents landed verifying
retail's ground-truth sky pipeline for the first time (prior audits
searched for stripped symbol names; the trail opened via the Region
dat-type-index 0x1c registration at chunk_00410000.c:12952). Key
retail functions now mapped in chunk_00500000.c:1097-7535:
- FUN_00501530: keyframe bracket-picker (with 1.0f wrap denominator)
- FUN_00501600: sun+ambient interpolator (sunVec = DirBright ×
(sin yaw·cos pit, cos yaw·cos pit, sin pit))
- FUN_00501860: fog interpolator
- FUN_00502820: SkyDesc::Unpack (2 doubles + DayGroup list)
- FUN_00502a10: build per-frame sky-object table
- FUN_00505f30: apply light state + per-cell AdjustPlanes relight
- FUN_005062e0: per-frame sky tick (throttled by LightTickSize)
- FUN_00508010: sky-object render loop (enqueues through the NORMAL
mesh pipeline via FUN_00514b90 — not a bespoke path)
Surprise findings:
- D3DRS_AMBIENT is set to 0 once at init and NEVER changes per-frame
(chunk_005A0000.c). The r12-inferred "clouds = texture × D3DRS_
AMBIENT" formula is falsified. Retail instead routes keyframe
AmbColor through per-vertex lighting on non-Luminous sky meshes
via _DAT_008682bc/c0/c4.
- Retail does NOT anchor the sky to the camera or use a separate
sky projection. Sky meshes live in world space and follow the
camera via scene-graph parent.
- FUN_00532440 (AdjustPlanes) re-lights every terrain cell on every
keyframe tick — the "terrain follows the sky" effect we don't yet
reproduce.
Phase 1 code change (this commit):
- src/AcDream.App/Rendering/Sky/SkyRenderer.cs: revert uTint to white
for all submeshes (the per-submesh blend split stays — sun gets
additive, clouds get alpha). Keep the `keyframe` parameter in the
signature for Phase 2 readiness. Comments now cite the retail
functions and reference docs instead of the (disproven) r12 formula.
- src/AcDream.Core/World/SkyDescLoader.cs: ACDREAM_DUMP_SKY=1 logs
the entire Region SkyDesc on load — DayGroups, SkyObjects, every
SkyTimeOfDay keyframe, and every SkyObjectReplace with RAW pre-/100
Transparent/Luminosity/MaxBright values so we can settle the unit
question empirically.
- src/AcDream.App/Rendering/Sky/SkyRenderer.cs: ACDREAM_DUMP_SKY=1
additionally logs each sky GfxObj's Surfaces and their SurfaceType
flags on first load, so we can identify which meshes carry the
Luminous bit (dome? sun? moon? stars?) vs which are lit.
- src/AcDream.App/Rendering/GameWindow.cs: passes the interpolated
keyframe to the sky renderer (kept — needed for Phase 2).
Research docs (pushed as part of this commit):
- docs/research/2026-04-23-sky-retail-verbatim.md: full synthesis
with retail function map, struct layouts, globals, pseudocode, and
a 4-phase port plan.
- docs/research/2026-04-23-sky-decompile-hunt-{A,B,C}.md: raw hunt
outputs.
- docs/research/2026-04-23-sky-references-crossref.md: WorldBuilder/
ACE/ACViewer/holtburger/Chorizite coverage.
- docs/research/2026-04-23-sky-dat-schema.md: full dat schema + unit
analysis.
- docs/research/2026-04-22-sky-lighting-decompile.md: prior agent's
(superseded) inference — kept for provenance.
Phase 2 will port Surface.Luminous-flag-aware per-vertex lighting for
sky submeshes once the dump resolves the open questions (Luminous-flag
distribution per Dereth sky mesh; _DAT_007a1870 scale constant value).
Build + 717 tests green.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Retail's Region dat stores SkyObjectReplace.Luminosity / Transparent /
MaxBright as percentages in the 0..100 range. Our shader expects
fractions in 0..1. We were passing raw values (luminosity up to 100)
straight into the sky fragment shader's rgb-multiplier:
rgb = sampled.rgb * uTint.rgb * uLuminosity;
At the "Sunny" DayGroup's noon keyframes (verified via live diag),
Luminosity = 100 → shader multiplied the cloud texture RGB by 100 →
min(rgb, vec3(1.2)) clamped all channels to 1.2 → pure white sky.
Also gave the dawn/dusk purple sky effect on top of the pale texture.
Fix: SkyDescLoader.ConvertTimeOfDay divides Luminosity, Transparent
and MaxBright by 100 when loading each SkyObjectReplace. The Rotate
field stays as degrees (values like 270° are genuine headings, not
percentages).
Transparent was accidentally surviving via a 0..1 clamp downstream,
but we fix it for consistency and so brightness-attenuating values
in the 0..99 range (partial fade during dawn/dusk) work correctly
instead of rounding to full-transparent.
WorldBuilder's SkyboxRenderManager does NOT apply these fields at
all — that's why they never hit this bug. Our port applies them for
per-keyframe day-night fades, so we needed the unit conversion.
Also picked up in this commit (incidental, already running):
- Sky render: per-submesh blend mode from TranslucencyKind.Additive
for sun/moon-style self-bright objects (Additive bit 0x10000).
Luminous flag 0x40 intentionally NOT mapped to additive — that
flag is on the sky dome + cloud sheets and making them additive
produced the previous "fully white" iteration of this bug.
- ToD default seed: DayTicks/16 (Midsong = hour 9 = true noon)
instead of DayTicks*0.5 which landed on Gloaming-and-Half (sunset)
due to DerethDateTime's +7/16 day-fraction offset. Pre-TimeSync
view now correctly starts at noon.
- Lightning flash: brighter white-blue (vec3(1.5,1.5,1.8)) instead
of dim grey; ceiling relaxed during flash so the strobe actually
blows out. Cadence (strike intervals, decay) unchanged.
- Saved docs/research/2026-04-21-sky-deep-audit.md with the
decompile+ACE+ACME+WorldBuilder research done to corner this bug.
Open follow-up (not fixed here): sky clouds are white at noon /
don't get the dusk/night purple tint. Our sky shader is fully unlit
— doesn't apply sun/ambient directional light like the terrain
shader does. AmbientColor in the keyframe data carries the right
tint (purple at midnight, magenta at dusk) but we pass
uTint = Vector4.One instead of the keyframe value. Next commit will
wire directional-sun + ambient into sky.frag so cloud meshes pick
up the time-of-day color.
All 717 tests green. User-confirmed: sky colors are now "much
better" after this change (previously fully white).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Ground-truth audit of acdream's animation pipeline against retail
decompile (chunk_*.c), cross-referenced line-by-line with our code.
Previous audit relied on ACE and got wiring claims wrong (said our
PlayAction path was orphaned when it's wired via OnLiveMotionUpdated).
Findings:
- PerformMovement dispatcher (FUN_00529a90) matches our MotionInterpreter.
- apply_current_movement cycle priority (FUN_00529210) matches our
OnLiveMotionUpdated sequencer path.
- Commands list → PlayAction wiring matches retail.
- Falling / Jump / Dead substate routing matches.
- Frame-timing epsilon + negative-speed playback matches.
The agent's "hit-react missing" claim turned out to be wrong: the
referenced FUN_0048d760 call passes 32-bit IDs shaped like MotionCommand
values but user-confirmed retail shows NO body animation on damage, so
vtable +0x9c is almost certainly emit-effect / play-sound / spawn-
particle — not a motion play. Not an animation gap.
Open follow-up: CreateObject initial Commands list is parsed but not
replayed when the entity hydrates (minor; rare case).
Not a follow-up: on-hit combat feedback (particles, damage numbers).
That's a separate feature, not an animation pipeline concern.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Update the roadmap's 'shipped' table with the G.1+ entry covering the
end-to-end visual integration (sky renderer, weather system, particle
renderer, UBO-backed shader lighting, server time sync) — not just the
data-plumbing layer that went out yesterday.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Closed: jump server packet (002), facing direction (003), run speed (004).
New: collision penetration (005), corner stuck (006), missing trees (007).
All collision bugs stem from static-overlap detection instead of
swept-sphere — needs Transition restructure to use FindTimeOfCollision.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Two fixes for jump physics:
- Skip ground-snap when velocity Z > 0 (prevents immediate re-landing
at high framerates where per-frame Z delta < 0.05 snap threshold)
- Guard apply_current_movement velocity write behind OnWalkable check
(prevents MotionInterpreter.DoMotion from zeroing jump velocity on
every frame while airborne)
- Guard PlayerMovementController velocity replacement behind OnWalkable
(preserves momentum during airborne flight)
Jump works locally but server packet not yet sent (BUG-002).
Facing direction mismatch logged as BUG-003.
RunRate not verified as BUG-004.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Four-layer design for retail-faithful movement: speed from RunRate,
charged jump, BSP collision from decompiled CTransition, cell-based
object collision. Decompile-first methodology per CLAUDE.md.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Start with BUG-001: wrong cloth textures on characters (observed
during rendering rebuild verification).
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
The single most important document in the project. Defines:
Architecture: 6-layer stack (Platform → Renderer → Network → World →
Game Objects → Plugin API). The code is modern C#; the behavior
matches the retail client exactly.
GameEntity: the unified entity class that replaces the current
scattered state (WorldEntity + AnimatedEntity + guid dicts + player
controller). Every world object is a GameEntity with PhysicsBody +
AnimationSequencer + CellTracker + MotionInterpreter + AppearanceState.
Per-frame update order: Network → Streaming → Input → Entity tick
(motion → physics → collision → cell → animation) → Render → Plugin.
Execution plan (R1-R8):
R1: GameEntity refactor (unify scattered state)
R2: Thin GameWindow (extract to proper systems)
R3: CellBSP + wall collision (indoor transitions)
R4: Complete animation state machine
R5: Lighting from decompiled AdjustPlanes
R6: Server compliance (authoritative Z, keepalive)
R7: Interaction (doors, NPCs, chat, inventory)
R8: Plugin API completion (Lua macros)
Also updates CLAUDE.md to establish the architect role and reference
the architecture doc as the single source of truth.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Sprint 2 research for indoor transitions. Documents:
- ACE EnvCell.find_transit_cells: sphere-plane + BSP containment
- ACE SortCell/BuildingObj.check_building_transit: outdoor→indoor
- PortalSide semantics and portal polygon plane testing
- Gap analysis: acdream needs CellBSP, BldPortal list, VisibleCells
Key finding: full accuracy requires CellBSP (physics BSP from dat)
for sphere_intersects_cell. Current PortalPlane.IsCrossing is a valid
approximation. ACME's AABB PointInCell is an intermediate option.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Complete pseudocode translation of the retail AC client's animation
system, extracted from chunk_00520000.c. Covers:
- Sequence::update_internal (1021 bytes, the core frame advance loop)
- Sequence::advance_to_next_animation (node transitions)
- Sequence::append_animation (queue management)
- MotionTableManager::PerformMovement (1878 bytes, full state machine)
- AddAnimationsToSequence (transition link → sequence nodes)
- GetStartFramePosition / GetEndFramePosition (reverse playback support)
- AdjustNodeSpeed (negative speed = swapped start/end frames)
Key findings:
- framePosition is a 64-bit DOUBLE, not float
- Negative speedScale swaps startFrame↔endFrame at the node level
- update_internal handles both forward and reverse in one loop
- Frame triggers fire at every integer boundary crossing
- The keyframe slerp lives in the renderer, not the sequencer
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
ROOT CAUSE FIX for missing left-side animations.
The AC client's MotionTable has NO cycles for TurnLeft (0x000E),
SideStepLeft (0x0010), or WalkBackward (0x0006). The real client
calls adjust_motion() which remaps these to their right-side
equivalents with NEGATIVE speed before looking up the cycle. Then
multiply_framerate() swaps LowFrame↔HighFrame so the animation
plays backward.
Source: ACE MotionInterp.cs:394-428, decompiled FUN_005267E0.
Changes:
- AnimationSequencer.SetCycle: adds adjust_motion block that remaps
left→right with speed *= -1 (TurnLeft, SideStepLeft) or
speed *= -0.65 (WalkBackward = BackwardsFactor)
- LoadAnimNode: when framerate < 0, swaps Low↔High (matching the
decompiled multiply_framerate)
- GameWindow.UpdatePlayerAnimation: passes original animCommand to
SetCycle (sequencer handles remapping internally), keeps legacy
fallback for non-sequencer entities
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Complete decompilation of the retail Asheron's Call client using
Ghidra 12.0.4 + pyghidra headless. 22,225 of 22,226 functions
successfully decompiled in 75 seconds.
Output: docs/research/decompiled/ (54 files, 688,567 lines of C)
Key findings already identified:
- CLandBlockStruct::ConstructPolygons at chunk_00530000.c:2270
(split direction formula with 0x0CCAC033 constants)
- Motion command handlers at chunk_00510000.c (0x45000005 etc)
- Motion interpreter at chunk_00520000.c
- Portal space UI at chunk_004D0000.c and chunk_00560000.c
Next: identify CPhysicsObj, CMotionInterp, collision, and movement
functions by cross-referencing against ACE's C# port.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Exhaustive analysis of two working AC clients revealing three critical
findings that reshape acdream's movement system:
1. Server-authoritative Z: neither AC2D nor holtburger computes local
terrain Z for the player. AC2D sends keys, receives position. Holtburger
dead-reckons for smoothing but the server overrides.
2. Terrain split formula mismatch: AC2D and ACViewer's render path use
0x0CCAC033-based FSplitNESW; WorldBuilder (our source) uses a different
214614067-based physics formula. Our terrain mesh triangulation doesn't
match the real AC client's, causing Z mismatches on slopes.
3. Movement deduplication: MoveToState sent once per state change, not per
frame. AutonomousPosition heartbeat every 1 second.
Also adds AC2D to CLAUDE.md reference repos section.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Comprehensive spec for completing the physics/movement system:
CellPortal-based indoor/outdoor/room-to-room transitions via
sphere-plane intersection, multi-landblock boundary crossing,
momentum-preserving jump with gravity arc, portal-space state
machine for teleports, Setup.StepUpHeight hookup, and
scenery-on-road exclusion fix.
Replaces the current "outdoor heightmap sampler with disabled
indoor transitions" with the full world-navigation system AC's
client uses. 12 acceptance criteria, ~20 new unit tests planned.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Tab-toggled player mode with WASD ground walking, A/D + mouse
turning, Z/X strafing, Shift for run, third-person chase camera,
local walk/run/turn/idle animations, and outbound MoveToState +
AutonomousPosition server messages. Uses PhysicsEngine from B.3
for collision-resolved positions.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
5-task TDD plan: TerrainSurface (outdoor heightmap Z + cell ID),
CellSurface (indoor floor polygon projection via barycentric interp),
PhysicsEngine (top-level resolver with step-height + cell transitions),
GameWindow integration (populate from streaming), and roadmap update.
~16 new unit tests with fake data. No dat files or rendering needed.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Pure-computation collision engine for ground-based entity movement.
Three components: TerrainSurface (outdoor heightmap Z interpolation),
CellSurface (indoor EnvCell floor polygon projection), PhysicsEngine
(top-level resolver with step-height enforcement, outdoor/indoor
cell transitions via CellPortals, and gravity reporting).
Uses PhysicsPolygons from CellStruct for walkable surfaces with
brute-force polygon iteration (< 20 polys per cell). BSP tree
acceleration deferred — same collision fidelity, simpler code.
Standalone module with no rendering or networking dependencies.
~15-20 unit tests with fake data covering flat terrain, slopes,
stairs, wall rejection, and cell transitions. Integration with
the streaming system via ApplyLoadedTerrainLocked. Consumed by
Phase B.2 (player movement mode, separate spec).
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
All Foundation sub-pieces now shipped:
A.1 ✓ Streaming landblock loader
A.2 ✓ Frustum culling (~160fps)
A.3 ✓ Background net receive thread
A.4 Folded into A.1 (deferred — DatCollection not thread-safe)
Phase A (Foundation) is complete. Next: Phase B (Gameplay).
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
~160fps uncapped at 5×5 radius with per-landblock AABB culling.
Perf overlay in window title shows visible/total landblock ratio
so the culling impact is visible at a glance.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Move A.1 from "ahead" to "shipped" per the roadmap discipline rule.
The shipped row notes that the loader currently runs synchronously
(the original async-worker design hit DatCollection's lack of thread
safety) and that the Channel-based outbox API is preserved so async
loading can return cleanly when Phase A.3 lands a thread-safe dat
wrapper. Pending-spawn list in GpuWorldState handles live spawn /
streaming races without dropping data.
Quick-lookup table updated:
- "Can't walk past the loaded 3×3 window" → A.1 FIXED ✓
- "Frame hitch crossing landblock boundary" → Phase A.3
(synchronous loader for now; async returns when DatCollection is
thread-safe)
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Review follow-up from commit 11df793. Three fixes:
1. Visible semantics: StreamingRegion.Visible now strictly describes the
current (2r+1)×(2r+1) window, not window + hysteresis retainees.
Added a parallel Resident property exposing the actual loaded set
(window + hysteresis buffer). This matters because StreamingController
(next task) reads these to decide what to render vs what to unload;
conflating them in one set would have forced awkward post-processing
downstream.
2. Doc/code disagreement: updated the RecenterTo and RegionDiff doc
comments from "radius + 1" to "radius + 2" to match the actual
implementation (which is what the tests require). Also updated the
plan doc so future readers don't hit the same contradiction.
3. Edge-clamping test coverage: added a single-axis edge test
(cx=0, cy=50 → 15 entries) and an ID-encoding test (radius=0 at
0x12,0x34 → 0x1234FFFE) so a swapped-shift bug in EncodeLandblockId
or an asymmetric off-by-one would fail a test instead of passing
silently.
9 tests green, full suite regressions-free.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
9-task TDD plan for the first chunk of Phase A (Foundation): the
streaming landblock loader. Covers StreamingRegion (pure data +
hysteresis diff), LandblockStreamer (background worker + channels),
GpuWorldState (render-thread entity registry), StreamingController
(glue), TerrainRenderer.RemoveLandblock, GameWindow wiring (env var,
camera/player center switch, Dispose), scenery + interior integration,
and the roadmap-shipped-table update.
Each task is a full TDD cycle: failing test, run, minimal impl, run,
commit. ~16 new unit tests land alongside the implementation.
Phase A.2 (frustum culling) and A.3 (net I/O thread) get their own
plans once A.1 ships — they're independent subsystems per the
brainstorming skill's decomposition guidance.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Output of a brainstorming session after Phase 6/7.1/9.1/9.2 shipped
and the lifestone crystal bug was isolated. Two documents:
1. docs/plans/2026-04-11-roadmap.md — strategic roadmap replacing
the stale post-Phase-5 version. Reflects what's actually shipped,
reorganizes upcoming work into Phases A (Foundation), B (Gameplay),
C (Polish — includes VFX/particles, dynamic lights, palette tuning,
double-sided translucents), D (UI + Sound), and E (long-tail).
Updates the "when will my complaint be fixed" quick-lookup with
the correct phase for portals (VFX, not shader tricks as previously
claimed), smoke, fireplace fire, and everything we fixed this
session. Phase ordering: A → B → (C/D in parallel) → E.
2. docs/superpowers/specs/2026-04-11-foundation-phase-design.md —
detailed implementation spec for Phase A only. Covers the four
sub-pieces (streaming landblock loader, frustum culling, net I/O
thread, async dat decoding folded into the streaming worker),
their components, data flow, error handling, testing strategy,
and commit-point ordering. Includes non-goals to prevent scope
creep.
No code changes yet. The spec goes to user review next, then into
the writing-plans skill for a detailed implementation plan.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Captures all the "this looks wrong" findings from the Phase 5 visual
verification and assigns each to a future phase. Top-of-document is
phases done, then phases ahead in suggested order, then a quick
lookup table that maps user complaints to their owning phase.
Phases ahead:
6 Animation system (creature poses, walk/attack motions, breathe-idle)
7 Multi-floor interiors + dungeons (second floors, foundry interior,
subterranean rooms)
8 Player input → server (movement, interact, ack pump, combat)
9 Visual polish (portals, mesh-origin offsets, exact palette ranges,
lighting/shadows)
10 UI / HUD (chat, inventory, character panel, spellbook, minimap)
11 Sound (SoundTable, audio engine, 3D positional audio)
12 Streaming + perf (chunked landblock loading, frustum culling, LOD,
background net thread)
Each phase entry has: what it owns, what it requires, references in the
existing references/ tree, and rough effort estimate.
Document is intentionally a living roadmap — updated whenever a phase
lands or when a new defect is observed that doesn't fit the existing
buckets.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Blending-focused plan for Phase 3c: port WorldBuilder's per-cell
palette-code + alpha-atlas terrain texture merge scheme so terrain
type boundaries blend smoothly instead of stair-stepping.
Scope deliberately excludes chunking (deferred to a possible Phase 3d
when streaming actually matters) so the work stays focused on the
visible win.
Execution split into 4 small commits:
3c.1 palette math (pure CPU, unit tested against golden values)
3c.2 alpha atlas loading
3c.3 per-cell vertex layout refactor
3c.4 shader rewrite (the visual-win commit)
Each step is runnable on its own so if 3c.4 looks wrong we know the
earlier steps were fine.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Design-only doc covering the networking subsystem needed to bring
the static Holtburg scene online: UDP packet codec, ISAAC keystream,
fragment reassembly, GameMessage dispatch, WorldSession lifecycle,
and composite IGameState so server CreateObject messages flow through
the same IEvents pipeline the dat-hydrated static entities already use.
Also documents that ACE is the authority for the protocol (neither
WorldBuilder nor ACViewer implements client networking) and captures
the license hygiene plan: read ACE's AGPL source for protocol knowledge,
reimplement from scratch, credit in NOTICE.md.
Explicit win condition for Phase 4: the foundry statue finally appears,
because it's a server weenie, not a dat decoration.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Locks the four decisions from brainstorming: full scope (all 8 sketched
tasks in one Phase 2b), GL_TEXTURE_2D_ARRAY for terrain atlas with a
per-vertex flat uint layer attribute, raw cursor capture FlyCamera with
F toggle and Escape release, and WorldEvents.EntitySpawned with
replay-on-subscribe so plugin ordering doesn't matter.
Grows AcDream.Plugin.Abstractions by IGameState + IEvents +
WorldEntitySnapshot. Host-side WorldGameState + WorldEvents implementations
live in AcDream.App.Plugins. AppPluginHost constructor gains two
parameters. Program.cs wiring order keeps Phase 2a's Enable-before-Run,
relying on replay-on-subscribe to make subscription-before-world-load
produce the right observable behavior.
Task 1 expands Vertex struct and LandblockMesh signature — this affects
StaticMeshRenderer's vertex stride too, so Phase 2a's shader bindings
need a matching update.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Tasks 1-10 are fully specified TDD-bite-sized and cover Phase 2a:
scaffold + GfxObjMesh.Build + SurfaceDecoder + LandblockLoader +
SetupMesh.Flatten + WorldView + TextureCache + StaticMeshRenderer +
debug + visual verification. End state: Holtburg terrain with buildings
rendered and at least some textures resolved.
Tasks 11-18 are sketches for Phase 2b in a future session: terrain
atlas, 3x3 neighbor rendering, ICamera/FlyCamera/CameraController, and
the IGameState/IEvents plugin API growth. These will be re-planned
with fresh context once Phase 2a is known to work.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Verified the real GfxObj data shape against DatReaderWriter's generated
types and WorldBuilder's ObjectMeshManager. Three corrections:
- GfxObj.Surfaces is a list and Polygon.PosSurface indexes into it;
multiple surfaces per GfxObj are the norm. GfxObjMesh.Build now
returns IReadOnlyList<GfxObjSubMesh> — one sub-mesh per referenced
surface. StaticMeshRenderer draws entities by grouping entities by
GfxObj and then by sub-mesh within each GfxObj. Matches the approach
WorldBuilder takes.
- LandBlockInfo has both Objects (Stabs — small decorations, rocks,
trees) AND Buildings (BuildingInfo). LandblockLoader loads both
lists and maps them uniformly to WorldEntity since both types share
the Frame shape.
- Stab.Frame and BuildingInfo.Frame carry position+orientation only,
no scale component. WorldEntity.Scale dropped. WorldEntitySnapshot
loses its Scale field too. Phase 3+ can add it back if needed.
Closes the one open design question flagged in the original doc.
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
