Modern open-source C# .NET 10 Asheron's Call client. Faithful port of retail client behaviour to Silk.NET with a plugin API.
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Erik cd974b29bc fix(camera): rest-snap render position — kills the indoor doorway standing-still flicker
Root cause (pinned live, flap-churn.log at the Holtburg cottage doorway): the physics
body is byte-stable at rest (rawPlayer = 1 distinct value), but
PlayerMovementController.ComputeRenderPosition's Lerp(prev, curr, alpha) dithers the
render position by microns — the two physics-tick snapshots lag the settled body
(per-frame resolve edge-settles the resting sphere against the doorframe after the last
tick wrote curr) while the leftover-accumulator alpha varies every frame. The grazing-
doorframe camera-collision sweep (PhysicsCameraCollisionProbe.SweepEye) amplifies that
~1000x into a ~1.3 mm eye jitter (eye 17 distinct, RenderPosition 15 distinct) that trips
the PortalVisibilityBuilder clip -> the standing-still flicker (blue void / grass over the
cellar entrance) the user reported.

Fix: at rest (body velocity below RestVelocityEpsilonSq) render AT the authoritative
byte-stable body position instead of interpolating between two stale tick snapshots, so the
camera's pivot input is byte-stable and the sweep output stops jittering. Mirrors retail (a
resting object renders bit-stable) + the boom convergence snap
(RetailChaseCamera.ApplyConvergenceSnap, d2212cf), one layer earlier. Sub-tick interpolation
is preserved during motion (velocity above epsilon).

This SUPERSEDES the committed bounded-propagation plan: the live pin proved ZERO portal
re-enqueue churn during the flap (maxPop=1 across 13k oscillating frames; 0/63k reciprocals
ever clipped empty), so the flap was never the churn the spec hypothesized. The
ACDREAM_PROBE_PORTAL_CHURN apparatus did its job (refuted the hypothesis before the wrong
fix was built); plan/spec/memory updates to follow.

TDD: extracted the rest-snap into an internal-static pure ComputeRenderPosition; RED rest-
snap test (stale prev!=curr + varying alpha dithers) -> GREEN after the gate; motion test
guards interpolation; precondition test confirms a settled body's velocity is below the
gate threshold. 29 controller+cellar + 62 camera+portal tests green, no regression.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-08 14:59:59 +02:00
.github ci(hygiene): allow dotnet ecosystem (nuget+telemetry) so build/test can run 2026-05-23 08:48:37 +02:00
.vscode ci: add GitHub Agentic Workflows scaffolding + daily hygiene assessment 2026-05-22 23:31:13 +02:00
docs docs(render): implementation plan — portal-flood bounded-propagation (instrument+pin, then fix) 2026-06-08 12:38:02 +02:00
memory fix(physics): L.4 — steep airborne hits slide-tangent (interim, deviates from retail) 2026-04-30 13:22:07 +02:00
references chore(submodule): advance WB to acdream-fix-floor-rendering 2026-05-19 13:23:19 +02:00
src fix(camera): rest-snap render position — kills the indoor doorway standing-still flicker 2026-06-08 14:59:59 +02:00
tests fix(camera): rest-snap render position — kills the indoor doorway standing-still flicker 2026-06-08 14:59:59 +02:00
tools diag(render/physics): flap root-caused to physics rest µm-jitter; refute prior diagnoses 2026-06-08 09:16:12 +02:00
.gitattributes ci: add GitHub Agentic Workflows scaffolding + daily hygiene assessment 2026-05-22 23:31:13 +02:00
.gitignore test(phys): A6.P5 fixture — 3 ticks from live door-stuck capture 2026-05-25 12:43:51 +02:00
.gitmodules phase(N.0): wire up WorldBuilder fork as submodule + project refs 2026-05-08 08:51:49 +02:00
AcDream.slnx refactor(app): extract typed RuntimeOptions for startup env vars (Step 1) 2026-05-17 09:16:55 +02:00
analyze_flap_live.py diag(render): flap re-diagnosed as portal-flood re-clip DRIFT; physics + camera REFUTED 2026-06-08 11:21:46 +02:00
CLAUDE.md docs: indoor flicker/void root cause (decomp + live cdb) + 3-part fix plan handoff 2026-06-05 15:31:17 +02:00
find_burst.py diag(render): flap re-diagnosed as portal-flood re-clip DRIFT; physics + camera REFUTED 2026-06-08 11:21:46 +02:00
launch-a6-issue98-capture.ps1 docs(research): A6.P3 #98 — comparison harness findings + neighborhood fixtures 2026-05-23 20:12:43 +02:00
launch-a6-issue98-cottage-gfxobj-dump.ps1 test(phys): A6.P3 #98 — comparison harness reproduces cottage-floor cap 2026-05-23 20:44:50 +02:00
launch-a6-issue98-polydump.ps1 docs(research): A6.P3 #98 — comparison harness findings + neighborhood fixtures 2026-05-23 20:12:43 +02:00
launch-flap-capture.ps1 diag(render): flap re-diagnosed as portal-flood re-clip DRIFT; physics + camera REFUTED 2026-06-08 11:21:46 +02:00
launch-flap-churn.ps1 diag(render): launch-flap-churn.ps1 — Phase 1 portal-churn pin capture script 2026-06-08 12:56:44 +02:00
NOTICE.md chore(O-T1): create Core/Rendering/Wb directory + NOTICE.md attribution 2026-05-21 14:59:56 +02:00
README.md docs: add docs/ISSUES.md tactical issue tracker + CLAUDE.md rules 2026-04-25 00:08:15 +02:00

acdream

A modern open-source C# / .NET 10 Asheron's Call client.

Faithful port of the retail client's behaviour to Silk.NET with a modern, plugin-friendly architecture. The code is modern; the behaviour is retail.

Status: playable pre-alpha. You can log in to an ACE server, walk and run through Dereth, see other players animate correctly, watch the day-night cycle, hear ambient audio, and take weapons out. Many systems are still stubbed or in-progress — see roadmap.

Stack

  • Language: C# .NET 10
  • Graphics: Silk.NET (OpenGL 4.3)
  • Audio: OpenAL via Silk.NET
  • Dat parsing: Chorizite.DatReaderWriter
  • Networking: Custom UDP + ISAAC cipher + game-message layer, wire-compatible with ACEmulator server

What works

  • Connecting to a local ACEmulator (ACE) server on 127.0.0.1:9000
  • Character selection and login
  • Rendering Dereth terrain with retail-correct texture blending, per-vertex lighting, and road overlays
  • Static scenery (buildings, trees, scenery objects) via EnvCell walker
  • Animated characters (own + remote) with walk / run / strafe / jump / turn / attack motions sourced from the retail motion tables
  • Network sync with remote players — you can watch other characters animate correctly, including speeds and directional motion
  • Day-night cycle driven from the retail Region dat (0x13000000) — correct DayGroup picking via the retail LCG, correct keyframe interpolation, correct per-keyframe sky-object replace
  • Weather (rain/snow particles synced from the server via the retail DayGroup name)
  • Sky dome, stars, moon, clouds, sun — each rendered from the retail Region's SkyObjects with texture scrolling and alpha fade
  • Plugin host with live event replay-on-subscribe

What's stubbed or in-progress

  • Indoor transitions (building interiors) — disabled, Phase B.3 pending
  • Combat — animation works, damage math not wired
  • Lightning visual — the retail PhysicsScript-driven flash is researched but not wired (see docs/research/2026-04-23-lightning-real.md)
  • TimeSync drift — we only sync calendar on login, not periodically, so acdream's in-game clock gradually drifts from retail's
  • Landscape draw distance — currently ACDREAM_STREAM_RADIUS=2 (~400m) vs retail's several kilometres

See docs/plans/2026-04-11-roadmap.md for the ordered phase list. See docs/ISSUES.md for the rolling list of known bugs + small deferred features (tactical, bug-level; the roadmap is strategic, phase-level).

Building + running

Requires:

  • .NET 10 SDK
  • A retail Asheron's Call dat directory (Turbine/Microsoft property — supply your own). Contains client_portal.dat, client_cell_1.dat, client_highres.dat, client_local_English.dat.
  • A running ACE (ACEmulator) server on 127.0.0.1:9000 (or override via env var)

Launch (PowerShell on Windows — bash has trouble with the apostrophe in "Asheron's Call"):

$env:ACDREAM_DAT_DIR   = "$env:USERPROFILE\Documents\Asheron's Call"
$env:ACDREAM_LIVE      = "1"
$env:ACDREAM_TEST_HOST = "127.0.0.1"
$env:ACDREAM_TEST_PORT = "9000"
$env:ACDREAM_TEST_USER = "testaccount"
$env:ACDREAM_TEST_PASS = "testpassword"
dotnet run --project src\AcDream.App\AcDream.App.csproj -c Debug

Offline CLI dat inspector (no server needed):

dotnet run --project src/AcDream.Cli -- "C:\path\to\Asheron's Call"

Diagnostic env vars

Variable Effect
ACDREAM_DUMP_SKY=1 Per-second dump of the interpolated SkyKeyframe values + per-SkyObject draw info + texture alpha histograms
ACDREAM_DUMP_MOTION=1 Dump every inbound UpdateMotion + resulting SetCycle
ACDREAM_STREAM_RADIUS=N Tune landblock visible-window radius (default 2 = 5×5)
ACDREAM_NO_AUDIO=1 Suppress OpenAL init
ACDREAM_DAY_GROUP=N Force a specific DayGroup index for A/B-testing weather presets
ACDREAM_RUN_SKILL=N / ACDREAM_JUMP_SKILL=N Client-side run/jump skill (default 200)

Layout

src/
  AcDream.App/                   rendering + audio + main loop (Silk.NET)
  AcDream.Core/                  game state, meshing, physics, sky, weather, lighting
  AcDream.Core.Net/              UDP + ISAAC + game-message layer
  AcDream.Cli/                   offline dat-inspector console app
  AcDream.Plugin.Abstractions/   plugin host interfaces
  AcDream.Plugins.Smoke/         example plugin

tests/
  AcDream.Core.Tests/            xUnit tests (742 passing)
  AcDream.Core.Net.Tests/        network-layer tests

tools/
  RetailTimeProbe/               Win32 P/Invoke ReadProcessMemory probe of
                                 the live retail acclient.exe — dumps
                                 TimeOfDay + sky-lighting globals so we
                                 can compare against acdream's state
  SkyObjectInspect/              dat-inspector for Region sky objects

references/                      vendored read-only reference code — ACE,
                                 ACViewer, WorldBuilder, holtburger,
                                 AC2D, Chorizite, DatReaderWriter.
                                 Gitignored.

docs/
  architecture/                  single-source-of-truth architecture doc
  plans/                         phase roadmaps + per-phase specs
  research/                      decompile-derived research, per-phase
                                 findings, deep-dive agent reports
  audit/                         phase-completion audits

Development workflow

All AC-specific behaviour is ported from the decompiled retail client (docs/research/decompiled/). The workflow is:

  1. Decompile first. Find the matching function in the decompiled client.
  2. Cross-reference. Check against ACE's C# port and ACViewer / WorldBuilder.
  3. Write pseudocode. Translate C to readable pseudocode first.
  4. Port faithfully. Translate line-by-line, preserving variable names and control flow.
  5. Conformance test. Add tests using golden values from retail.
  6. Integrate surgically. Minimise churn in the surrounding pipeline.

Guessing at AC-specific algorithms is explicitly forbidden — see CLAUDE.md for the full workflow rationale and the list of failure modes we've paid for in the past.

Reference repos

We cross-reference five external projects for every retail behaviour:

  • ACE (ACEmulator) — authoritative server-side protocol
  • ACViewer — MonoGame dat viewer; good for character appearance
  • WorldBuilder — Silk.NET dat editor; matches our stack
  • Chorizite.ACProtocol — clean-room C# protocol library
  • holtburger — most complete non-retail client; Rust TUI, full client-side behaviour
  • AC2D — C++ AC-client emulator; has the real terrain split formula and 0xF61C movement packet format

See CLAUDE.md for which reference is authoritative for which domain.

Licence

Not yet chosen. All external reference code is vendored under its own licence; see references/*/LICENSE. The acdream source code itself is unreleased — not yet distributed to the public. Once the licence choice is made it will go in a top-level LICENSE file.

The AC dat files and the game's intellectual property remain the property of Microsoft / Turbine. This project does not distribute any of those files or assets — you must supply your own retail install.